Difference between revisions of "MERVBot Tutorial"

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m (Simple way to print those stats: Fixed formatting, still has overflow issues.)
m (Functions to get a pilot's struct id info from a name or *player info: minor spacing issue, fixed.)
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<!-- EXAMPLE L: START    -->
 
<!-- EXAMPLE L: START    -->
 
<p>'''Example L''': Example of functions to get a pilot's struct id info from a name or *player info.</p>
 
<p>'''Example L''': Example of functions to get a pilot's struct id info from a name or *player info.</p>
<p>'''Note''': Required structures needed for this example tow ork. See structure examples for variable information.</p>
+
<p>'''Note''': Required structures needed for this example to work. See structure examples for variable information.</p>
 
<p>'''Note''': Remember to implement any function into the spawn.h accordingly.</p>
 
<p>'''Note''': Remember to implement any function into the spawn.h accordingly.</p>
 
<p>'''Note''': Using pilot names as vital comparisions should be used with caution. See [http://cypherjf.sscentral.com/articles/botsasclients.html Bot-Issues] by CypherJF.</p>
 
<p>'''Note''': Using pilot names as vital comparisions should be used with caution. See [http://cypherjf.sscentral.com/articles/botsasclients.html Bot-Issues] by CypherJF.</p>

Revision as of 15:10, 15 February 2005

Here is the ever-popular MERVBot Tutorial by Underlord:

Setup a MERVBot bot and project in visual c++
0) <a href="#0">Setting up a MERVBot bot</a>

Command.cpp
 1) <a href="#1">Player commands</a> (!play, !squadA vs squadB)

Spawn.cpp
 2) <a href="#2">Event descriptions</a> (describe events in spawn.cpp)
 2) <a href="#2">Messaging </a>("*arena hi", ":player:*scorereset)
 3) <a href="#3">MervBot Timer</a> (do this in 10 seconds)(countdown[n])
 4) <a href="#4">Writing Functions</a> (bool IsInCenter(Player *p))

Useful operations
 6) <a href="#6">Cycling players</a>
 7) <a href="#7">Check if pilot is in safe zone</a>
 8) <a href="#8">Random numbers</a>
 9) <a href="#9">Time without using countdown[n]</a>
10) <a href="#10">Storing data for pilots</a>
11) <a href="#11">Output data in messages</a>
12) <a href="#12">Input/Output to files</a>
13) <a href="#13">Programming commands</a>
14) <a href="#14">Useful player data</a>
15) <a href="#15">Bot built in functions</a>

Example Code

a) <a href="#15a">No antiwarp in center of map</a>
b) <a href="#15b">Setting freq size depending on how many pilots in game</a>
c) <a href="#15c">Tracking kills and announcing when pilot gets 10 kills in a row without dying </a>
d) <a href="#15d">Warp pilot to coord when they are in a certain region</a>
e) <a href="#15e">Structures within structures</a>
f) <a href="#15f">Tracking flag data</a>
g) <a href="#15g">Way to do simple /!spam feature</a>
h) <a href="#15h">Implementing a simple stack to do "next in line for several 'boxes' at once"</a>
i) <a href="#15i">Reading any text from a .txt and printing it to pilot line by line</a>
j) <a href="#15j">Example of printing player stats grid</a>
k) <a href="#15k">Example of checking if any pilots are within a region</a>
l) <a href="#15l">Example of functions to get a pilot's struct id info from a name or *player info</a>
m) <a href="#15m">Example of creating a logfile name using date and squad names</a>
n) <a href="#15n">Sending messages to playing freqs or public and logging depending on status</a>
o) <a href="#15o">Example of reading in all player/freqs to struct data</a>
p) <a href="#15p">Example of finding MVP from struct data</a>
q) <a href="#15q">Print time stamp of event</a>
r) <a href="#15r">Simple way to track player bomb/bullet damage stats</a>
s) <a href="#15s">Simple way to print those stats</a>
t) <a href="#15t">Make bot spectate specific coordinates</a>

Contents

Setting up a MERVBot (plugin)

MERVBot download site:  http://catid.sscentral.com/

MERVBot Forum:  http://www.ssforum.net/  (Development - MervBot forum)


Download MERVBot Build 37 (DLL 6.5)

Unzip MERVBot.zip into a new folder. (example c:\program files\continuum\mervbot)
Unzip src.zip into "src" subfolder of that new folder (example c:\program files\continuum\mervbot\src)


Download DLL-plugin Tutorial

Note: if you only want to execute someone's premade plugin (.dll), skip to step 4, otherwise continue to learn how to make your own bot

Unzip Tutorial.zip (containing spawn.h, spawn.cpp, and command.cpp) into "/tutorial" subfolder of that new folder. (example c:\program files\continuum\mervbot\src\tutorial).

File descriptions:

  • spawn.h = declare/initialize globals
  • command.cpp = code for commands coming into bot (ie /!help, /!play, etc)
  • spawn.cpp = code for main part of bot


Microsoft Visual c++

  1. Start Visual Studios 6.0.
  2. Click the Drop Down Menu labeled "File" at the top left of your screen.
  3. Click "New".
  4. On the next screen that comes up, choose from the Project tab, then Win32 Dynamic-Link Library
  5. Select the "/src" folder as the base folder (example c:\program files\continuum\mervbot\src)
  6. Name your project "mybot". This will make a "mybot" subfolder in your "src" folder. Click OK. (example creates c:\program files\continuum\mervbot\src\mybot)
  7. Choose to create an "Empty DLL project".
  8. Click "Finish".
  9. Click the Drop Down Menu labbled "Project".
  10. Click "Add To Project Files"
  11. Copy only spawn.h, spawn.cpp, and command.cpp from the "tutorial" folder into the this new folder. (example from c:\program files\continuum\mervbot\src\tutorial to c:\program files\continuum\mervbot\src\mybot)
  12. Click the Drop Down Menu labelled "Build".
  13. Click "Build (dll name)" - where (dll name) is "mybot"
  14. Go into your "mybot" folder and look for a folder named "Debug" (example c:\program files\continuum\mervbot\src\mybot\debug)
  15. Your new DLL will be in that folder. (example mybot.dll)
  16. Copy mybot.dll to your base folder that has mervbot.exe in it (example c:\program files\continuum\mervbot)


Run your bot dll

To run your bot you need your DLL (mybot.dll), Commands.txt, MERVBot.exe, MERVBot.ini, Operators.txt, Spawns.txt, subspace.bin, and zlib.dll all in one folder (example c:\program files\continuum\mervbot).

  1. Edit spawns.txt (only one line of text in file needed)

    bot_name : pw_for_bot_name : arena: dll_plugin : optional_staff_password
    Example:
    2v2-Bot-League : botpw : 2v2a : 2v2league : staffpw
    • You should create your bot name and pw using your Continuum client as you would create any new name.
    • There is no * in front of staffpw.


  2. Edit MERVBot.ini

    [Login]
    Zone=216.33.98.254:21000	// make that your zone IP:PORT available from zone.dat in Continuum dir
    


  3. Edit operators.txt

    access_level : name :
    Example:
    4:my_name:
    4:another_sysop:
    3:other_person:
    


  4. Run MERVBot.exe

    Double click MERVBot.exe, the bot should now enter the zone. Note: Bot needs to be on vip.txt or have moderator+ access to enter a zone.

  5. Modify your MERVBot code

    You can open your MERVBot project by opening "mybot.dsw" file with visual c++. (example c:\program files\continuum\mervbot\src\mybot\mybot.dsw) Edit the spawn.h, spawn.cpp, and command.cpp to create your plugin, then build, copy your updated DLL to your MERVBot.exe folder and then execute the bot. Use the tutorial to get ideas on how to implement certain types of features into the bot.

Player Commands - (command.cpp)

This section describes how to implement player commands into your plugin. Commands are sent to the botInfo::gotCommand function in command.cpp.

Example (makes bot reply to !test with "hi"):

void botInfo::gotCommand(Player *p, Command *c) {
	switch (p->access)
	{
        case OP_Moderator:
                {
                     // handle moderator-operator commands here.
                }
	case OP_Player: //appropriate staff rank here.
		{
			if (c->check("test")) //replace "test" with whatever command you want
			{
				//put your command code here
				sendPrivate(p,"hi"); //example
			}
		}

How to have commands with numerical parameters

Example (!test #):

	if (c->check("test")) { // reads in test #, default to 1 if invalid number input
		int temp = 1;

		if (isNumeric(c->final))
			temp = atoi(c->final);

How to have player name as input

Example (!rank player):

	if (c->check("rank"))
	{
		String player_name = c->final;

		if (player_name.IsEmpty()) // default name to self if invalid name
			player_name = p->name;

How to have multi-parameter input

Use the CRT function sscanf() to scan the string for the values.

Example (!squads squadA vs squadB or !squads teamA:squadA:teamB:squadB):

else if (c->check("squads"))
{
	char squadA[20], squadB[20];
	int teamA, teamB;

	strncpy(squadA, "", 20);
	strncpy(squadB, "", 20);

	int n_found;

	//Note: %[A-Za-z ] is equivalent to %s, but allows an internal space.

	//scan the string for the two squads separated by " vs "
	n_found = sscanf(c->final, "%[A-Za-z ] vs %[A-Za-z ]", squadA, squadB);

	//if that fails, scan the string for freqA:squadA:freqB:squadB
	if (n_found < 2)
		sscanf(c->final, "%d:%[A-Za-z ]:%d:%[A-Za-z ]", &teamA, squadA, &teamB, squadB);
}

Help Menu

When a player sends !help to the bot, MERVBot calls botInfo::gotHelp() in each plugin loaded.

void botInfo::gotHelp(Player *p, Command *c)
{
	if (!*c->final)
	{
	sendPrivate(p, "4v4 Bot General Commands:");
	sendPrivate(p, "------------------------");
	sendPrivate(p, "!caps - get captain names");
	sendPrivate(p, "!roster <squad> - get roster of a squad");
	sendPrivate(p, "!schedule- get current schedule");
	sendPrivate(p, "!score - get current score");

Event Calls

MERVBot is event based, so when making a bot you need to decide what will happen at certain events. Normal plugins need to consider what happens when bot enters arena, player enters arena, player leaves arena, player events like kill, shipchange, teamchange, spec, move then any other relevant events to your bot. Just worry about events that are relevant to the tasks your bot is doing.

MERVBot sends events to botInfo::gotEvent() in spawn.cpp. Each supported event is already present and categorized in gotEvent(), along with the paramters that MERVBot sends with the event.

See dllcore.h for a list of current events and their descriptions.

Messaging - How to use the messaging system

Private message - void sendPrivate(Player *player, char *msg);

Examples:

sendPrivate(p,"hi");

String s="test";
sendPrivate(p,s);

String s="test";
s += "ing";
sendPrivate(p,s);

char captain1[20];
char captain2[20];
strncpy(captain1,"",20);
strncpy(captain2,"",20);
sendPrivate(p,(String) captain1 + " and " + (String) captain2 + " are the captains.");

Team message - void sendTeamPrivate(Uint16 team, char *msg);

Examples:

a) sendTeamPrivate(8025,"hi spec freq");
b) Uint16 test=0; sendTeamPrivate(test,"hi freq 0");

Public message - void sendPublic(char *msg);

Example: sendPublic("*arena " + (String) p->name + " is now a captain");

Chat channel message - void sendChannel(char *msg);

Example: sendChannel("hi chat channel");

Remote private message - void sendRemotePrivate(char *name, char *msg);

Example: sendRemotePrivate("Player01", "hi");

Note: to have bot print several lines of text fast it needs sysop in the arena (sysop in arena bot first spawns to also) otherwise it'll print slow to avoid being kicked for spam

Timer - How to use the timing function

Each time MERVBot sends an EVENT_Tick to a plugin (once a second), the default handler code decrements each value in an array of countdowns. You can modify the number of countdowns and add code to occur at a specific value for one of the countdowns.

Setup number of timers and initialize in spawn.h:

class botInfo
{
	#define COUNTDOWNS 10 		// how many countdowns you want
	int countdown[COUNTDOWNS];	// this gives you 10 timers

// unrelated code
 
	public:
	botInfo(CALL_HANDLE given)
	{
	countdown[0] = 0;
	countdown[1] = 60; // 60 seconds
	//
	// initialize values
	//
	countdown[9] = 5*60; // 5 minutes

Using timer functions in spawn.cpp:

case EVENT_Tick:
{
	for (int i = 0; i < COUNTDOWNS; ++i) //cycles through each countdown you have
		--countdown[i]; //note that countdowns will continue decrementing past 0.

	if (countdown[1] == 2) // when timer #1 hits two seconds
	{
	// do stuff here when timer #1 hits 2 seconds
	// example: sendPublic("two seconds left, setting timer to 1 minute");
	// example: countdown[1] = 60; // change timer #1 value
	}

You can then have events (such as EVENT_PlayerDeath) change the value of a countdown to make the bot do something a set time after an event occurs.

Writing Functions

For this example, we will take the function called closeto, which determines if a player exists in an specific radius around a point. Now to apply this function to a MervBot plugin, you need to write it into the spawn.cpp - at the top of the file in the //////// DLL "import" //////// setion, as below:

//////// DLL "import" ////////

bool closeto(Player *p, int x, int y, int tolerance) 
{
	// Requires the function abs() to be declared elsewhere.
	// Return if player p is in area of square with center x, y
	//   and radius = tolerance
	return (abs((p->tile.x) - x) - tolerance) && (abs((p->tile.y) - y) - tolerance);
}


If you want your function to have access to the data from spawn.h botInfo class, you make the function apart of it. To do this, we add the botInfo:: infront of the function name, in spawn.cpp.

//////// DLL "import" ////////

bool botInfo::closeto(Player *p, int x, int y, int tolerance) 
    {
	 ...
    }

In spawn.h, add your method's prototype without botInfo::, it will look like this:

//...
botInfo(CALL_HANDLE given)
 {
//  ...
 } 
  bool closeto(Player *p, int x, int y, int tolerance); // Your function prototype.

  void clear_objects(); //provided by Catid, and already exists.
  void object_target(Player *p); //provided by Catid, and already exists.
//  ...
};

If you're not familiar with prototypes, notice it is similar to that in your spawn.cpp, but without the botInfo::, and a trailing ;.

As a side-note, with C++ we are able to pass variables by reference. We'd modify our example function accordingly. If you are unfamiliar with this concept, I suggest you read up on some C++ resources.

        bool botInfo::closeto(Player *p, int& x, int& y, int& tolerance)  // note the &

To use our original example we'd implement it accordingly:

        bool is_close = closeto(p,x,y,tolerance);  // if x is changed in closeto() its saved here

From time-to-time you will need to pass an array to a function. An example illustrating this is:

	int freqs[5]; // declare our example data.

	// call function - notice freqs and not freqs[5] or freqs[].
	my_function(freqs); //You're not passing the array itself, just a pointer to the array.

	// function - notice freqs[] and not freqs[5] or freqs
	void my_function(int freqs[]) {} //You're specifying that the freqs parameter is an array

Cycling players- How to search through the players in the arena

With MervBot all player related data is stored in a linked-list. To search through the players in the arena, use the following example:

  _listnode <Player> *parse = playerlist->head;

  while (parse)
    {
        Player *p = parse->item;

        // do functionality here
        // Example 1: sendPrivate(p,"*watchdamage"); // turns on all pilot's watchdamage
        // Example 2: if (p->safety != 0) sendPrivate(p,"*spec"); // spec all pilots in safe zone

        parse = parse->next
    }

As an example of use, assuming our bot has smod+ privilages, the following code will set all non-spectator players to a specific ship. First begin by adding the following function prototype to the spawn.h in the botInfo class.

 void handleCmdSetShip(BYTE ship);

In spawn.cpp add:

void botInfo::handleCmdSetShip(BYTE ship)
{
  // This is NOT an efficient piece of source code by ANY means.
  // Note, a suggestion I would recommend is to add validation
  //   to the variable ship, keeping it in the range of 0 to 9,
  //   where 0 - Warbird, and 9 - Spectator.

	_listnode <Player> *parse = playerlist->head;
	while (parse)
	{
		Player *p = parse->item;
		if ( p->ship != ship && p->ship != SHIP_Spectator )
		{
				sendPrivate(p, 0x00, "*setship " + (String)ship);
		}
		parse = parse->next;
	}
}

To use:

 handleCmdSetShip(SHIP_Warbird);  //SHIP constants are in clientprot.h

Checking if pilot is in a safe zone

MervBot keeps track of whether a player is in safe or not by accessing a member of the Player class.

  • if (p->safety != 0) // pilot is in a safe zone
  • if (p->safety == 0) // pilot is NOT in a safe zone

An example goes as follows, in spawn.cpp:

...
EVENT_PlayerMove:
{
   Player *p = (Player*)event.p[0];

   if ( p->safety ) // player is in safe zone.
     {
        // do something.
     }

   if ( !p->safety ) // player NOT in safe zone.
     {
        // do something.
     }
}
...

Random number

To use these examples, two required include statements must be used:

#include "time.h"    //provides time() function.
#include "stdlib.h"  //provides srand() and rand() functions.

Example 1: Generate a completely random number.

Use:

    srand(time(NULL)); // seed random number generator.

    rand(); // randomize.

    int temp = (int) (51 * ((float)rand()/RAND_MAX));
       // the above line returns a random integer between 0 and 51.
       // Note: RAND_MAX is a global constant defined in stdlib.h

Example 2: Pick a random pilot.

Note: A required user-defined function, getInGame(), must be created and declared for this example to work.

   int temp = GetTickCount() % getInGame();  // getInGame() = how many pilots in arena

   Player *rabbit = NULL;

    _listnode <Player> *parse = playerlist->head;
    while (parse)
    {
        Player *p = parse->item;

        if (p->ship != SHIP_Spectator) // if player is not a spectator.
         {
           if ( !(--temp) ) // pointer-arithmetic. decrement temp, if its 0, this is the rnd pilot.
            {
              rabbit = p;
              break;
            }
         }
    parse = parse->next;
    }

Tracking time not using countdown[n]

This is a solution to a common problem of determining the amount of time it takes for something to occur. Using basic math, we record a start-time B, and an end-time E, both in the unit of seconds, we calculate the time elapsed by E-B.

Lucky for us, C++ provides a function called GetTickCount() that is a measurement of time (milliseconds) that we can use for such cases.

So:

  int begin = GetTickCount();

  // do some code here.

  int end   = GetTickCount();
  
  int delta = end - begin;  // the change of time in milliseconds
  
  int delta_seconds = delta / 1000; // the change of time in seconds.

Storing data for pilots

There are several ways to store data for pilots (ie tracking flagtime or kills in a period of time)

1) get/setTag - use if you only want to track data until pilot leaves arena then its erased
built in tags track by an ID that is reset when pilot leaves/enters arena, so loses track of data once they leave arena

2) modified perm get/setTag - use if you want to track all pilots even if they leave (advantage - easier to sort by player)
also can track near unlimited amount of pilots

3) structs - use to track all pilots even if they leave, (advantage - easier to sort by freqs), have to specify bound of players

note: 2 and 3 are similar in effect, mostly the difference is in how you are able to search through data you need to decide which method of storing data is best for each bot depending on what it does beware using modified perm get/setTag if bot is in an arena for long periods of time, data is not reset so the linkedlist could get huge


Initialize these following values in spawn.h at the very top:
1.) Built in get/setTag method

 #define DMG_DEALT        0
 #define DMG_TAKEN        1

// in spawn.cpp initialize the values on arena-enter and player-enter

case EVENT_ArenaEnter:
  {
   ...

    _listnode <Player> *parse = playerlist->head;

    while (parse) // do for all pilots in arena when bot enters
     {
       Player *p = parse->item;  // get pilot

       set_tag(p, DMG_DEALT, 0); // initialize to 0

       set_tag(p, DMG_TAKEN, 0);

       sendPrivate(p,"*watchdamage");  // optionally turn on player *watchdamage

       parse = parse->next;  // get next pilot
     }
  }
case EVENT_PlayerEntering:
  {
     set_tag(p, DMG_DEALT, 0); // initialize to 0
 
     set_tag(p, DMG_TAKEN, 0);
  
     sendPrivate(p,"*watchdamage");
  }

// then somewhere edit the tag values

case EVENT_WatchDamage:
  {
      // sets tag for k (shooter) to be old value plus damage dealt currently
      set_tag(k, DMG_BOMB_DEALT, get_tag(k, DMG_BOMB_DEALT) + damage);
  }

The following demonstrates how to retrieve the tag values as a command in spawn.h.

 if (c->check("showstats")) {
            int temp = get_tag(p, DMG_TOTAL_DEALT);

            String s = "You've done ";
            s += temp;
            s += " damage so far!";

            sendPrivate(p,s);
 }

Destroy the tags when the player leaves arena.

 case EVENT_PlayerLeaving:
  {
    killTags(p);
  }

2.) Modified permanent get/setTag method
// same as get/setTag with some modifications to the tag code, then can use tags exactly as above // spawn.h, add char name[20]; into struct PlayerTag

struct PlayerTag
{
    Player *p;
    char name[20];
    int index;
    int data;
};

In spawn.cpp:

    case EVENT_PlayerLeaving:
    {
        Player *p = (Player*)event.p[0];

        // killTags(p);  // remove so tag not deleted on arena exit

    ...

Locate in spawn.cpp and modify accordingly:

    int botInfo::get_tag(Player *p, int index)
    {
        _listnode <PlayerTag> *parse = taglist.head;
        PlayerTag *tag;

        while (parse)
        {
          tag = parse->item;

          // if (tag->p == p)
          if (strcmp(tag->name,p->name)==0)  // now tracking by player name, not ID
          if (tag->index == index)
            return tag->data;

          parse = parse->next;
        }
        return 0;
    }
    void botInfo::set_tag(Player *p, int index, int data)
    {
        _listnode <PlayerTag> *parse = taglist.head;
        PlayerTag *tag;

        while (parse)
        {
          tag = parse->item;

          //if (tag->p == p)
          if (strcmp(tag->name,p->name)==0) // now tracking by player name, not ID
          if (tag->index == index)
          {
            tag->data = data;
            return;
          }
          parse = parse->next;
        }

        tag = new PlayerTag;
        // tag->p = p; // not tracking by ID anymore
        strncpy(tag->name, p->name, 20); // tracking by player name
        tag->index = index;
        tag->data = data;
        taglist.append(tag);
    }

3.) Using structs, implement in spawn.h:

class botInfo
{
 struct freqdata 
  {
   int kills;
   int deaths;
  };
...
};

To make use of this structure, implement accordingly:

freqdata freqs[100]; // 100 of those structs

Access the data in spawn.cpp using

freqs[56].kills = 1;

Output of data/messages

An example of using normal strings to output data/messages.

 // does *arena X pilots left in game
 // NOTE: variable temp needs to be defined with some value

 String s = "*arena ";
       s += temp;
       s += " pilots left in the game.";

 sendPublic(s);

Or,

 //NOTE: this can be considered inefficient.

 sendPublic("*arena " + (String)temp + " pilots left in the game");

An example using sprintf to align/space data, where output data will be in this approximate format.

// output data will be in this approximate format (not lined up perfectly because of html)
// --------------------------------------------------------------------------------------
// Squad: squadname       PTS     FPTS    K    D  DMG DEALT TAKEN   F  FK    FLT
// --------------------------------------------------------------------------------------
// PlayerA              10000      500  116  101       9999 99999  10 150 980:55
// PlayerB                500      200    7    5       9999 99999   5   3   0:04

char str[255];
sendPublic("*arena--------------------------------------------------------------------------------");

sprintf(str, "*arena Squad: %-20s   PTS     FPTS   K   D  DMG DEALT  TAKEN  F  FK  FLT",
         freqs[freq].freqname
        );

sendPublic(str);

sendPublic("*arena--------------------------------------------------------------------------------");

            // assuming existing freqs struct with data
            for (pilot=freqs[freq].playercount-1; pilot>=0; pilot--)
            {
                // on freq squad so print stats
                char outString[255];

                sprintf(outString, "*arena %-20s %12d %8d %3d %3d %10d %6d %2d %3d %3d:%02d",
                       freqs[freq].pilots[pilot].name,
                       freqs[freq].pilots[pilot].points,
                       freqs[freq].pilots[pilot].flagpoints,
                       freqs[freq].pilots[pilot].kills,
                       freqs[freq].pilots[pilot].deaths,
                       freqs[freq].pilots[pilot].dmgdealt,
                       freqs[freq].pilots[pilot].dmgtaken,
                       freqs[freq].pilots[pilot].flags,
                       freqs[freq].pilots[pilot].flagkills,
                       freqs[freq].pilots[pilot].flagtime /60,
                       freqs[freq].pilots[pilot].flagtime %60
                       );
                
                sendPublic(outString);
            }

            // Notes: sprintf format = sprintf(output char string, spacing, variables)
            // Notes: s = chars, d = integer, - = left align, right align default
            // Notes: doing %02d = put 0 in front if not 2 digits, %3d:%02d makes 0:04 format

Input/Output to files

Input to file
// example reading from duel.ini looking for line that starts with MaxBoxes= then taking the next char as value to store as

// MAX_BOXES (ie duel.ini = MaxBoxes=5)

  1. include <fstream>

using namespace std;

ifstream file("duel.ini");
    char line[256];

    // read in MaxBoxes=X
    while (file.getline(line, 256))
    {
if (CMPSTART("MaxBoxes=", line))
{
    MAX_BOXES = atoi(&(line[9]));
    break;
}
    }

Output to file


// normal char output


#include <fstream>


using namespace std;


ofstream file("duelleaguestat.inc", ios::app);   // app = put all data at end of file


file << squad1<< endl;  // squad1 = char[20]

file << " vs "<< endl;

file << squad2<< endl;  // squad2 = char[20]


                                                     // how to output String's

to file (key is converting String to (char*) to file write)


String str = freqs[freq].slotname[slot];

str += ", Repels: " + (String)(int) t->repel;

                   

outf << endl;

outf << (char*) str;

                                                       

// date and time stamp

#include "time.h"


char u[100];
time_t t=time(NULL);
tm *tmp = localtime(&t);
strftime(u,99,"%c",tmp);
sendPublic("Date and time: " + (String) u);


 
 
Example reading input from file using "GetPrivateProfileString" (from rampage plugin)
format of rampage.ini
7=is on a killing spree! (6:0)
10=is opening a can of whoop-ass! (9:0)

read input

rampageini.h
#pragma once
  1. ifndef RAMPAGEINI_H
  2. define RAMPAGEINI_H


  1. define NUM_RANKS 10
  2. define BUFFER_LEN 256


struct RampageSettings
{
    char quotes[NUM_RANKS][BUFFER_LEN];
};

void LoadSettings(RampageSettings &setts);

  1. endif    // RAMPAGEINI_H

rampageini.cpp

#include "rampageini.h"

static char buffer[BUFFER_LEN];
static char path[BUFFER_LEN];

  1. include "../algorithms.h"
  2. define WIN32_LEAN_AND_MEAN
  3. include <windows.h>


char *rank_type[10] = {
    "7",
    "10",
};

void LoadSettings(RampageSettings &setts)
{
    GetCurrentDirectory(BUFFER_LEN - 64, path);
    strcat(path, "\rampage.ini");


    for (int i = 0; i < NUM_RANKS; ++i)
    {
        GetPrivateProfileString("Comments", rank_type[i], "-ERROR-", setts.quotes[i], BUFFER_LEN, path);
    }
}

 
 
 

Simple programming commands

The following are some brief C++ tid-bits.

Simple Commands:

  • declare / initialize variables
    • Example: int r = 10; int q; q = 5;
  • if ( condition ) { }
    • Example: if (a > b) { a++; }
  • if ( condition ) { } else { }
    • Example: if (b <= 0) { b--; } else { a++; }
  • while ( condition ) { }
    • Example: while (b > 0) { b--; }
  • for ( initialize ; condition ; increment/decrement ) { }
    • Example: for (a=1; a < 10; a++) { a = a + b; }

Arrays:

  • single dimension:
    • int teams[100]; // create 100 hundred teams 0-99
    • teams[50] = 1;
  • multi-dimensional:
    • int teams[100][50]; // multidimensional array
    • teams[99][49] = 2;
  • variable (or dynamic) size :
    • String *list = new String[amount+1]; // string array with size amount (variable) + 1;
    • list[amount-1] = "hi";
    • Note: Remember to delete []list;

Structures

 struct name
  {
   ... // structure variables and functions.
  }; // NOTE: trailing ;

Example:

struct freqdata { int kills; int deaths; };

freqdata freqs[100]; // 100 of those structs

freqs[56].kills = 1;  // access struct

Switches:

 switch (variable)             
    {                            
        case n:              
        { }                      
        break;                        
                                          
        case m:            
        {  }                           
        break;            
        
        default:
        break;
    }

Example:

 switch (p->ship)
   {
     case SHIP_Warbird:
     {
       sendPrivate(p, "You're in a warbird");
     }
     break;

    default:
     break;
   }

Useful Player data

As stated earlier in the tutorial, MervBot stores useful player data internally as Player objects, see player.h for implementation details.

  • p->name = player name stored as char[20]
    • Note: SubSpace protocol allows for usernames to be 19+ in length, do not rely on this for player-name comparisions.
  • p->squad = player squad stored as char[20]
  • p->ship = ship (0-9) enumerated as SHIP_Warbird, SHIP_Spectator, etc..
  • p->safety = if ship is in safety zone (boolean)
  • p->bounty = player bounty
  • p->energy = player energy (have bot with *energy on to get accurate readings)
  • p->flagCount = how many flags player is holding
  • p->team = player frequency
  • p->(burst, repel, thor, brick, decoy, rocket, portal) = how many items of that type player has
  • p->(stealth, cloak, xradar, awarp, ufo, flash, safety, shields, supers) = if player has that item on (boolean)
  • p->score.killPoints = player kill points
  • p->score.flagPoints = player flag points
  • p->score.wins = player kills from f2
  • p->score.losses = player deaths from f2

Bot built in functions

// useful MervBot commands to control what the bot is doing


// player.cpp
Player::move(Sint32 x, Sint32 y)  // example  me->move(512,512) - bot moves to coord 512 512
Player::clone(Player *p) // example  me->clone(p)

// dllcore.cpp (descriptions of functions in dllcore.h)

BotEvent makeEcho                (char *m);
BotEvent makeSay                (int t, int s, int i, char *m);

BotEvent makeShip                (int s);
BotEvent makeTeam                (int t);
BotEvent makeGrabFlag            (int f);
BotEvent makeSendPosition        (bool reliable);
BotEvent makeDropFlags            ();

BotEvent makeDeath                (Player *p);
BotEvent makeAttach                (Player *p);
BotEvent makeDetach                ();
BotEvent makeFollowing            (bool f);
BotEvent makeFlying                (bool f);
BotEvent makeBanner                (BYTE *b);
BotEvent makeDropBrick            ();
BotEvent makeFireWeapon            (void *weapon_info);

BotEvent makeToggleObjects        (Uint16 player, Uint16 *objects, int num_objects);

BotEvent makeSpawnBot            (char *name, char *password, char *staff, char *arena);
BotEvent makeChangeArena        (char *name);
BotEvent makeChangeSettings        (_linkedlist <String> *settings);

// example how to use them:

tell(makeFollowing(false));

// look in Commands.txt , command.cpp (core), or /!help to bot to see all bot external commands (example /!go <arena>)

Example Code

              -->
        -->

No antiwarp in center of the map

Example A: No antiwarp in center of map. Warn the player, and revoke the prize.

In order for this code to work correctly, the bot must have smod+ privilages.

Lets first implement two functions which we will need to accomplish this task:

 bool closeto(Player *p, int x, int y, int tolerance) {
    return (abs((p->tile.x) - x) < tolerance) && (abs((p->tile.y) - y) < tolerance); }

 inline int abs(int n) {
    if (n < 0)    return -n;
    else        return n; }

We should define the radius of antiwarp checking, this can be done several ways, for sake of simplicity, here is a quick-plop-in for spawn.h:

class botInfo
{
	bool CONNECTION_DENIED;
        ...
        // Put bot data here
        int radius;

 public:
	botInfo(CALL_HANDLE given)
	{
         ...
         // Put initial values here
         radius = 35;
         ...

Locate and add into spawn.cpp accordingly:

case EVENT_PlayerMove:
{

    Player *p = (Player*)event.p[0];

    // no anti in center
    if ((p->ship != SHIP_Spectator) && (p->awarp)) {
        if (closeto(p, 512, 512, radius)){
            sendPrivate(p, "*prize #-20");
            sendPrivate(p, "*warn Antiwarp is not allowed in center.");
        }
    }
  ...

Just as a word of caution, players may at times be flooded with *prize #-20, and *warn statements under certain conditions.


Setting freq size depending on how many pilots in game

Example B: Setting freq size depending on how many pilots in game.

In order for this code to work correctly, the bot must have Sysop or Arena-Owner privilages.

In spawn.cpp (Note: this source code has assumptions, please review comments before implementing.):

case EVENT_Tick:
  {
   ...

  // NOTE: assuming countdown[0] initialized to > 0  in spawn.h, freqchange=0;
  if (countdown[0] == 0)
   {
        _listnode <Player> *parse = playerlist->head;
        int count = 0;

        while (parse)
        {
            Player *p = parse->item;

            if (p->ship != SHIP_Spectator)
            ++count;

            parse = parse->next;
        }

        if ((count > 24) && (freqchange != 4))
        {
            sendPublic("?set team:maxperteam:4"); //Sysop command to modify arena config.
            String s;
            s = "Max freq size 4  (";
            s += count;
            s += " pilots in game)";
            sendPublic(s);
            freqchange = 4;
        }

        if ((count < 25) && (count > 14) && (freqchange != 3))
        {
            sendPublic("?set team:maxperteam:3"); //Sysop command to modify arena config.
            String s;
            s = "Max freq size 3  (";
            s += count;
            s += " pilots in game)";
            sendPublic(s);
            freqchange = 3;
        }

     countdown[0] = 120; // reset timer to 120 seconds.
    }


Tracking kills and announcing when pilot gets 10 kills in a row without dying

Example C: Tracking kills and announcing when pilot gets 10 kills in a row without dying.

In order for this code to work correctly, the bot must have smod+ privilages.

Locate EVENT_PlayerDeath in spawn.cpp (see note.):

EVENT_PlayerDeath:
 {
    Player *p = (Player*)event.p[0],
           *k = (Player*)event.p[1];
    Uint16 bounty = (Uint16)(Uint32)event.p[2];
    Uint16 flags = (Uint16)event.p[3];

    // NOTE: assuming tags are setup (see storing data section).
    set_tag(p, KILLS, 0);  // pilot died, reset to 0 kills in a row
    set_tag(k, KILLS, get_tag(k, KILLS) + 1);  // pilot killed someone, increment kills in a row by 1

    if (get_tag(k, KILLS) == 10)
        sendPublic("*arena (String) k->name + " has gotten 10 kills.");
 ...
  }


Warp pilot to coord when they are in a certain region

Example D: Warp pilot to coord when they are in a certain region.

In order for this code to work correctly, the bot must have smod+ privilages.

Lets first implement two functions which we will need to accomplish this task:

 bool closeto(Player *p, int x, int y, int tolerance) {
    return (abs((p->tile.x) - x) < tolerance) && (abs((p->tile.y) - y) < tolerance); }

 inline int abs(int n) {
    if (n < 0)    return -n;
    else        return n; }

In spawn.cpp, EVENT_PlayerMove:

case EVENT_PlayerMove: 
  {
   Player *p = (Player*)event.p[0];

   if (closeto(p, 509, 509, 2)) // if pilot within 2 of map coord 509,509
      {  
         sendPrivate(p, "*warpto 509 504");  // warp to coord 509,504
      }
  ...


Structures within structures

Example E: Structures within structures (spawn.h botinfo).

Implement the following in the spawn.h:

struct playerstats
 {
   char name[20];

   int kills;
   int deaths;
   Uint16 points;
   Uint16 flagpoints;
   int flagtime;
   int cflagtime;
   int flags;
   int flagkills;

   int dmgdealt;
   int dmgtaken;
 };

struct freqdata
 {
   playerstats pilots[100];

   int freqpoints;
   char freqname[20];
   int freqflagpoints;
   Uint16 freqteam;
   int freqflagtime;

   int flags;
   int kills;
   int deaths;
   int flagkills;

   int dmgdealt;
   int dmgtaken;

   int playercount;
 };

 //... (large jump down in spawn.h)

 // Put bot data here <- locate and add after:
 freqdata freqs[100];

 //... <- perhaps some other variables.. scroll down past the next }
 }
 
 void Clear(); // A user-defined function. Add this.

 void clear_objects(); //already exists, provided by Catid.
 void object_target(Player *p); //already exists, provided by Catid.

 // ...  spawn.h continues.

Implement the following in spawn.cpp:

void botInfo::Clear()
{
  // initialize/clear struct data
  for (int n=99; n>=0; n--)
  {
    freqs[n].freqteam=-1;
    freqs[n].freqpoints=0;
    freqs[n].freqflagpoints=0;
    freqs[n].playercount=0;
    freqs[n].flags=0;
    freqs[n].kills=0;
    freqs[n].deaths=0;
    freqs[n].freqflagtime=0;
    freqs[n].flagkills=0;
    freqs[n].dmgdealt=0;
    freqs[n].dmgtaken=0;

    for (int m = 99; m>=0; m--)
    {
      freqs[n].pilots[m].deaths=0;
      freqs[n].pilots[m].kills=0;
      freqs[n].pilots[m].points=0;
      freqs[n].pilots[m].flagpoints=0;
      freqs[n].pilots[m].flagtime=0;
      freqs[n].pilots[m].cflagtime=0;
      freqs[n].pilots[m].flags=0;
      freqs[n].pilots[m].flagkills=0;
      freqs[n].pilots[m].dmgdealt=0;
      freqs[n].pilots[m].dmgtaken=0;
    }
 }
}

To access private data:

freqs[1].pilots[2].kills++;

-OR-

int freq = p->team;
freqs[freq].deaths++;


Tracking flag data

Example F: Tracking flag data.

f) Tracking flag data

Example GetPilot() function  (using structs from example e)
bool botInfo::GetPilot(Player *p)

{
    // get a pilots freq/pilot id from struct
    for (freq=freqcount-1; freq>=0; freq--)
if (p->team == freqs[freq].freqteam)
    for (pilot = freqs[freq].playercount-1; pilot>=0; pilot--)
        if (strcmp(p->name,freqs[freq].pilots[pilot].name)==0)
            return true;

    return false;
}

 

Example way to track flag data using above struct/functions

case EVENT_FlagGrab:
{
    if (GetPilot(p))  // function
    {
        freqs[freq].pilots[pilot].flags++;
        freqs[freq].flags++;

        if (freqs[freq].pilots[pilot].flags < 2) // didnt have a flag before, first flag
            freqs[freq].pilots[pilot].cflagtime = GetTickCount();  // time stamp when picked up flag

    }
 
Example way to track flag data using built in get/set tag (from catid flagbot)


case EVENT_FlagGrab:


{


    set_tag(p, TAG_STAT_FS, get_tag(p, TAG_STAT_FS) + 1);


    set_tag(p, TAG_FLAGTIMER, GetTickCount());


}


 
 
Get current flag times using struct format


void botInfo::SetFlagTimes()

{
    // set current flagtime for pilots/freqs
    _listnode <Player> *parse = playerlist->head;
   
    while (parse)
    {
Player *p = parse->item;



if (GetPilot(p))
    if (freqs[freq].pilots[pilot].flags > 0)
    {
        if (PilotOnSquad(p))
            freqs[freq].freqflagtime += (GetTickCount() - freqs[freq].pilots[pilot].cflagtime)/1000;



        freqs[freq].pilots[pilot].flagtime += (GetTickCount() - freqs[freq].pilots[pilot].cflagtime)/1000;
        freqs[freq].pilots[pilot].cflagtime = GetTickCount();
    }



parse = parse->next;
    }
}

// side note:  case EVENT_FlagDrop: {} gets called anytime theres a teamkill



Example way to do simple /!spam feature (allowed 1x/60s)

Example G: Example way to do simple /!spam feature (allowed 1x/60s).

g) Example way to do simple /!spam feature (allowed 1x/60s)


declare and initialize variables in spawn.h


class botInfo

{
bool spamready;
int SPAM_TIME;



public:
    botInfo(CALL_HANDLE given)
    {
    spamready = true;
    SPAM_TIME = 60;


spawn.cpp - mark as spamready=true when 60 seconds up


case EVENT_Tick:

{
    if (countdown[0] == 1)  {
        spamready = true;  // ready to spam again
    }



                                           

command.cpp - handle !spam command


case OP_Player:

{    // Player-level commands



else if (c->check("spam"))
    {
        // zone announcement "Need pilots to duel in ?go arena -pilotname"
        if (spamready == true)
            {
            String s;
            s += "*zone Need pilots to duel in ?go ";
            s += arena;
            s += " - ";
            s += p->name;
            sendPublic(s);
         
            spamready=false;
            countdown[0] = SPAM_TIME * 60; // next spam time limit
            }
        else if (countdown[0] < 0)
        {
            sendPrivate(p,"Spam ability disabled.");
        }
        else
            {
            String s;
            s += SPAM_TIME;
            s += " Minute timer between announcements. ";
            s += countdown[0] / 60;
            s += ":";
            if (countdown[0] % 60 < 10)
                s += "0";
            s += countdown[0] % 60;
            s += " minutes left before next spam allowed.";
            sendPrivate(p, s);
            }
    }


 


Implementing a simple stack to do "next in line for several 'boxes' at once"

Example H: Example of implementing a simple stack to do "next in line for several 'boxes' at once".

In spawn.h declare the following variables and structs:

class botInfo
{
  //...

  // Put bot data here  <- locate and add after
  Player *next[99][99];
  int MAX_NEXT;
  int nextcount[99];

public:
    botInfo(CALL_HANDLE given)
    {
    //... 

    // Put initial values here <- locate and add after
    MAX_NEXT = 8; 

//... spawn.h continues on.

In spawn.cpp implement (remember to add the function prototype to spawn.h as well.):

void botInfo::MoveUp(int pos, int box)
{
    // moves up the next line for that box and decrement box's nextcount
    if (nextcount[box] > 0)
        nextcount[box]--;

    for (pos = pos; pos < MAX_NEXT - 1; pos++)
    {
        next[box][pos] = next[box][pos + 1];
    }

    next[box][MAX_NEXT] = 0;
}


Example of reading any text from a .txt and printing it to pilot line by line

Example I: Example of reading any text from a .txt and printing it to pilot line by line.

Required include:

#include <fstream>
using namespace std;  // bad coding practice, but for ease of use, we'll use it.

Example of use, in command.cpp:

case OP_Player:
{
    //...

    if (c->check("staff"))
    {
        // read in data line by line from the file staff.txt (max length 255)
        ifstream file("staff.txt");
        char line[256];

        while (file.getline(line, 256))
        {
            sendPrivate(p, line);
        }
        file.close();
    } 

    //... command.cpp continues.


Example of printing player stats grid

Example J: Example of printing player stats grid.

Note: This example code relies on previously discussed material. Please see the section "structures within structures" example for variable declarations, varibale freqcount = # of freqs.

Note: User defined function sendFreqs is required.

In spawn.cpp:

void botInfo::DisplayPlayers()
{
    // Display Match player/freq stats in this format
    // ---------------------------------------------------
    // Squad: squad_name_1             K  D TK DMG DEALT TAKEN
    // ---------------------------------------------------
    // Player_1                       0  0  0         0     0
    // Player_2                       0  0  0         0     0
    // TOTAL:                         0  0  0         0     0
    // ---------------------------------------------------
    // Squad: squad_name_2             K  D TK DMG DEALT TAKEN
    // ---------------------------------------------------
    // Player_3                       0  0  0         0     0
    // Player_4                       0  0  0         0     0
    // Player_5                       0  0  0         0     0
    // TOTAL:                         0  0  0         0     0
    // ---------------------------------------------------

    for (freq=freqcount-1; freq>=0; freq--)
    {
      char str[255];

      sendFreqs("---------------------------------------------------");

      sprintf(str, "Squad: %-20s K  D TK DMG DEALT TAKEN", freqs[freq].freqname);

      sendFreqs(str);

      sendFreqs("---------------------------------------------------");

      for (pilot=freqs[freq].playercount-1; pilot >= 0; pilot--)
      {
        sprintf(str, "%-20s %8d %2d %2d %9d %5d",
                 freqs[freq].pilots[pilot].name,
                 freqs[freq].pilots[pilot].kills,
                 freqs[freq].pilots[pilot].deaths,
                 freqs[freq].pilots[pilot].teamkills,
                 freqs[freq].pilots[pilot].dmgdealt,
                 freqs[freq].pilots[pilot].dmgtaken
               );
        sendFreqs(str);
      }

      sprintf(str, "TOTAL:                     %2d %2d %2d %9d %5d",
              freqs[freq].kills, freqs[freq].deaths,
              freqs[freq].teamkills,
              freqs[freq].dmgdealt,
              freqs[freq].dmgtaken
             );
      sendFreqs(str);
    }

    sendFreqs("---------------------------------------------------");
}


Checking if any pilots are within a region

Example K: Example of checking if any pilots are within a region.

Note: User-defined function GetPilotName is missing, and needs to be implemented.See prior examples.

Note: User-defined function closeto is missing, and needs to be implemented. See prior examples.

In spawn.cpp (Note: you will also need to add the function prototype to spawn.h accordingly):

bool botInfo::FreqAInBox()
{
    // return true if teamA has a pilot in the box, otherwise false
    for (int tempplayercount = freqs[0].playercount-1; tempplayercount >= 0; tempplayercount--)
       if (GetPilotName(freqs[0].pilots[tempplayercount].name))
         if (closeto(TempPlayer, coordX, coordY, 73) && (TempPlayer->ship != SHIP_Spectator))
            return true;

    return false;
}


Functions to get a pilot's struct id info from a name or *player info

Example L: Example of functions to get a pilot's struct id info from a name or *player info.

Note: Required structures needed for this example to work. See structure examples for variable information.

Note: Remember to implement any function into the spawn.h accordingly.

Note: Using pilot names as vital comparisions should be used with caution. See Bot-Issues by CypherJF.

Note from Underlord: It is "better to implement these functions as passing values by reference instead of using global variables... [it is] just easier to not have to be declaring different int freq, int pilot all the time."

In spawn.cpp:

// return struct freq/pilot id from *player info
bool botInfo::GetPilot(Player *p)
{
    // return freq, pilot of a player p
    for (freq=freqcount-1; freq>=0; freq--)
     if (p->team == freqs[freq].freqteam)
        for (pilot = freqs[freq].playercount-1; pilot>=0; pilot--)
            if (strcmp(p->name,freqs[freq].pilots[pilot].name)==0)
               return true;

    return false;
}
// return *player as TempPlayer info from p->name info
bool botInfo::GetPilotName(char *name)
{
    // get pilot from a name, return as TempPlayer
    _listnode <Player> *parse = playerlist->head;

    while (parse)
    {
        Player *p = parse->item;

        // convert both to lowercase to compare
        char pname[20];           
        strncpy(pname,p->name,20);

        char nname[20];           
        strncpy(nname,name,20);

        tolower(pname);
        tolower(nname);

        if (strcmp(pname,nname)==0)
        {
          TempPlayer = p;
          return true;
        }
        
        parse = parse->next;
    }
    return false;
}


Creating a logfile name using date and squad names

Example M: Example of creating a logfile name using date and squad names.

Example Output: 03y01m27dBLACKDRaGON vs Integral05h08m.txt.

Format: year, month, day, squadA vs squadB, hour, minute.

Note: Assuming you define the following variables: squadA (String), squadB (String).

    // create log file name (squadA and squadB external char[20] variables)
    char u[100];
    time_t t=time(NULL);
    tm *tmp = localtime(&t);
    strftime(u,99,"%y",tmp);
    logname = u;
    logname += "y";
    strftime(u,99,"%m",tmp);
    logname += u;
    logname += "m";
    strftime(u,99,"%d",tmp);
    logname += u;
    logname += "d";
    logname += squadA;
    logname += " vs ";
    logname += squadB;
    strftime(u,99,"%I",tmp);
    logname += u;
    logname += "h";
    strftime(u,99,"%M",tmp);
    logname += u;
    logname += "m";
    logname += ".txt";


Sending messages to playing freqs or public and logging depending on status

Example N: Example of sending messages to playing freqs or public and logging depending on status.

Note: Assumes you have the following variables declared: teamA (String), teamB (String), logname (String).

Note: Remember to implement the function prototypes into spawn.h

Required include statements:

#include <fstream>
using namespace std;  // bad coding practice, but it works.

In spawn.cpp:

// teamA, teamB, logname global variables
void botInfo::sendFreqs(char *msg)
{
  char *mmsg = "*arena";
  String s = msg;
   
  if (teammsgs == false)
  {
    s.prepend("*arena ",7);
    sendPublic(s);
  }
  else
  {
    sendTeamPrivate(8025,msg);
    sendTeamPrivate(teamA,msg);
    sendTeamPrivate(teamB,msg);
  }
  if (gameon == true)
  {
    ofstream outf(logname, ios::app);
    outf << msg << endl;
    outf.close();
  }
}


Reading in all player/freqs to struct data

Example O: Example of reading in all player/freqs to struct data.

o) Example of reading in all player/freqs to struct data


// see structures within structures example for freqs[] declaration



// to get freqs in a game where there are several freqs
void botInfo::GetFreqs()
{
    // read pilots into freq struct data from ingame and on playing freqs



    _listnode <Player> *parse = playerlist->head;
   
    while (parse)
    {
Player *p = parse->item;



if (p->ship != SHIP_Spectator)
    if (closeto(p, coordX, coordY, 73))
    {
        // look for freq in struct
        bool foundfreq=false;



        freq=freqcount-1;



        while ((freq>=0) && (foundfreq==false))
        {
            if (p->team == freqs[freq].freqteam)
            {
        foundfreq=true;
        strncpy(freqs[freq].pilots[freqs[freq].playercount].name, p->name, 20);
        freqs[freq].playercount++;   
            }
            freq--;
        }



        // didnt find freq in struct so add new freq
        if (foundfreq == false)
        {
            if (manualsquads == false)
            {
        strncpy(freqs[freqcount].freqname, p->squad, 20);



        if (freqcount == 0)
                {
            teamA = p->team;
            strncpy(squadA, p->squad, 20);
                }
                else
                {
            teamB = p->team;
            strncpy(squadB, p->squad, 20);
                }
            }
            else
            {
        if (p->team == teamA)
            strncpy(freqs[freqcount].freqname,squadA,20);



        else if (p->team == teamB)
            strncpy(freqs[freqcount].freqname,squadB,20);
            }
           
            freqs[freqcount].freqteam = p->team;



            strncpy(freqs[freqcount].pilots[0].name, p->name, 20);
                       



            freqs[freqcount].playercount++;
            freqcount++;
        }
    }
parse = parse->next;
    }
}



// to get freqs in a game where there are only two teams
void botInfo::GetFreqs()
{
    // read pilots into freq struct data from ingame and on playing freqs
    _listnode <Player> *parse = playerlist->head;
   
    while (parse)
    {
Player *p = parse->item;



if ((p->ship != SHIP_Spectator) && ((p->team == teamA) || (p->team == teamB)))
{
    // freq 100, team A
    // set freq
    freq = 0;



    if (p->team == teamB)
        freq = 1;



    // number of pilots on freq counted so far, starts 0
    pilot = freqs[freq].playercount;



    // pilot name
    strncpy(freqs[freq].pilots[pilot].name, p->name, 20);
    // time stamp for playing time
    freqs[freq].pilots[pilot].cplaying_time = GetTickCount();



    // slot name
    if (freqs[freq].playercount < NUMBER_PILOTS)
        strncpy(freqs[freq].slotname[pilot], p->name, 20);

    // increment freq player count
    freqs[freq].playercount++;



    // if freq not already have name, give it player squad name
    if ((manualsquads == false) && (strlen(p->squad) > 0))
        strncpy(freqs[freq].freqname, p->squad, 20);



            // set player ship
    freqs[freq].pilots[pilot].ship = p->ship + 1;
}
parse = parse->next;
    }
}



Finding MVP from struct data (2*kills - deaths formula)

Example P: Example of finding MVP from struct data (2*kills - deaths formula).

 int highest = -20;
 int mvp = 0;

 for (pilot = freqs[mvpteam].playercount-1; pilot >=0; pilot--)
   {
     if (((freqs[mvpteam].pilots[pilot].kills * 2) - freqs[mvpteam].pilots[pilot].deaths) > highest)
      {
        mvp = pilot;
        highest = (freqs[mvpteam].pilots[pilot].kills * 2) - freqs[mvpteam].pilots[pilot].deaths;
      }
   }


Print time stamp of event

Example Q: Print time stamp of event.

#include "time.h" // required include
Use:
 char u[100];
 time_t t=time(NULL);
 tm *tmp = localtime(&t);
 strftime(u,99,"%c",tmp);
 sendPublic("Current date and time: " + (String) u);


Simple way to track player bomb/bullet damage stats

Example R: Simple way to track player bomb/bullet damage stats.

Note: see data section for how to setup set_tag.

Note: see clientprot.h for weapon information.

In spawn.cpp:

case EVENT_WatchDamage:
{
    if (PLAYING)  // if tracking stats
    {
        if ((wi.type == PROJ_PBomb) && (p->name != k->name))
        {
            set_tag(k, DMG_BOMB_DEALT, get_tag(k, DMG_BOMB_DEALT) + damage);
            set_tag(k, DMG_TOTAL_DEALT, get_tag(k, DMG_TOTAL_DEALT) + damage);
            set_tag(p, DMG_BOMB_TAKEN, get_tag(p, DMG_BOMB_TAKEN) + damage);
            set_tag(p, DMG_TOTAL_TAKEN, get_tag(p, DMG_TOTAL_TAKEN) + damage);
        }
        else if (wi.type == PROJ_BBullet)
        {
            set_tag(k, DMG_BULLET_DEALT, get_tag(k, DMG_BULLET_DEALT) + damage);
            set_tag(k, DMG_TOTAL_DEALT, get_tag(k, DMG_TOTAL_DEALT) + damage);
            set_tag(p, DMG_BULLET_TAKEN, get_tag(k, DMG_BULLET_TAKEN) + damage);
            set_tag(p, DMG_TOTAL_TAKEN, get_tag(k, DMG_TOTAL_TAKEN) + damage);
        }
    }


Simple way to print those stats

Example S: Simple way to print those stats.

case OP_Moderator:
{
   if (c->check("showstats"))
    {
       sendPublic("Showing stats:");
       
       _listnode <Player> *parse = playerlist->head;             
   
       while (parse) 
	{
	  Player *p = parse->item;
    
          if (get_tag(p, DMG_TOTAL_DEALT) > 0)
	   {
	     char str[256];
	     sprintf(str, "(%-20s Dmg Dealt: Total %0004d, Bomb %0004d, Bullet %0004d  Dmg TAKEN: Total %0004d, Bomb %0004d, Bullet %0004d)",
	     p->name,
             get_tag(p,DMG_TOTAL_DEALT),
             get_tag(p,DMG_BOMB_DEALT),
             get_tag(p,DMG_BULLET_DEALT),
	     get_tag(p,DMG_TOTAL_TAKEN),
             get_tag(p,DMG_BOMB_TAKEN),
             get_tag(p,DMG_BULLET_TAKEN)
             );

	     sendPublic(str);
	    }
	  parse = parse->next;
	}
    }
}


Make bot spectate specific coordinates

Example T: Make bot spectate specific coordinates.

// make bot spectate the coord 512,600
// possible use - capturing weapon packets in a specific region

tell(makeFollowing(false));
tell(makeFlying(true));
me->move(512 * 16, 600 * 16);
tell(makeSendPosition(true));