Ideas for "Game-Realease-Metohd"

Selfbondage software and other kinky developments

Ideas for "Game-Realease-Metohd"

Postby guurhack » 11 Oct 2020, 02:59

I am a unity video game developer. I have experience creating these. I have tried 2 applications that are to keep the combination of a lock safe for a while. But they are too boring for a self-bondage session. since it is only to leave them open. So it occurred to me to program. Maybe mini-games that keep you on the phone.
Also other "games" like the one at sissy university. which I find interesting. that there are levels.
The only thing that I have inexpensive is with arduino.
Here Get demanding with ideas. I will take all of them into consideration to carry out this "Game-Release-Metothd"
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Re: Ideas for "Game-Realease-Metohd"

Postby Shannon SteelSlave » 11 Oct 2020, 07:56

Welcome to Bound Anna, Guurhack. Send me a Privater Message, I'll get you where you need to be here at the forum.
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Re: Ideas for "Game-Realease-Metohd"

Postby kinbaku » 12 Oct 2020, 07:36

Welcome Guurhack.
A game in which you have to perform different tasks within certain times: get out of a maze, add or subtract numbers, count how many letters "e" there are in a text, solve puzzles, spot the 10 differences between 2 drawings, solve a 20 piece jigsaw puzzle, ...
If you fail within the time limit, you will fall back to a previous level and be given a new assignment (such as the Ladders and Snakes game). Only at the last level does the Arduino operate the electromagnetic release lock. The same Arduino also periodically controls the vibrator that distracts you from the solutions.
With the possibility that the user can initially choose from which types of problems he wants to play the game.
Easy under normal circumstances, but not so easy to carry out under time pressure and distraction. :twisted:
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Re: Ideas for "Game-Realease-Metohd"

Postby guurhack » 13 Oct 2020, 23:43

It sounds like a very kinky mario party. I like it


I am also looking at how to pass information to an arduino and thus each one configures it to their liking for the topic of Teasing. Could you give me an example of how you use arduino to torture yourself?
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Re: Ideas for "Game-Realease-Metohd"

Postby kinbaku » 14 Oct 2020, 14:56

guurhack wrote:Could you give me an example of how you use arduino to torture yourself?

https://forum.boundanna.net/board/viewtopic.php?f=12&t=8478 is a good starting point.

I used this code:
Code: Select all
/*
 * Tormentor aangepast 20161021
 * aangepast 20161027 setup => Warming up and prepare
 * aangepast 20170405 extra setup met 2 routines
 * aangepast 20170917 indication met hogere waarden
Evil begins here
*/


int sexPin = 9; // Sex toy connected to pin
int ledpin = 13;

unsigned long randNum;
int randIntensity;
int randPattern;
int maxPattern = 11; // highest pattern number
int lowLimiet = 0;
int upperLimiet = 255;
int var;

void setup() {
  randomSeed(analogRead(0));
  unsigned long currentMillis = millis();
  pinMode(ledpin, OUTPUT);
  pinMode (sexPin, OUTPUT);
  Serial.begin(9600);
 
  //Warming up one minute
  while(millis()-currentMillis<60000) {
    digitalWrite(ledpin, LOW);
    digitalWrite(sexPin, HIGH);
  }
  digitalWrite(sexPin, LOW);
 
  //Prepare
  int speed = random(8,11);
  Serial.print("Speedchanging (milliseconds): ");
  Serial.println(speed); //Debugging
  for (int fadeValue=2000; fadeValue>10; fadeValue -= speed) {
    delay(fadeValue);
    digitalWrite(sexPin, HIGH);
    delay(200);
    digitalWrite(sexPin, LOW);
  }
  digitalWrite(ledpin, HIGH);
  delay(2000);

  //Arduino controled play 20170405
   // These variables will hold a random number generated by the random() function
   unsigned long breakTime, previousMillis;
   //unsigned long currentMillis = 0;
   unsigned long var;
   unsigned long sequenceOne, sequenceTwo, sequenceThree, sequenceFour, interval;

   // IO
   int sexPin = 9;

//   // the setup function runs once when you press reset or power the board
//   void setup() {
{
     // initialize digital pin 9 as an output.
     pinMode(sexPin, OUTPUT);
     pinMode(13, OUTPUT);

      //setup serial communications through the USB
     Serial.begin(9600);
     Serial.println("Starting new session.");
   }

//   // the loop function runs over and over again forever
//   void loop() {
   //do it 3 times
   for (int i=0; i <= 2; i++){
     unsigned long currentMillis = millis();

      Serial.println("- sex Test -");
     var = 0; // Test to make sure it's working
     while(var < 1){
        currentMillis = millis();
        for (int fadeValue = 10 ; fadeValue <= 255; fadeValue += 2) {
          analogWrite(sexPin, fadeValue);
          digitalWrite(13, LOW);
          delay(20);
        }

        for (int fadeValue = 255 ; fadeValue >= 10; fadeValue -= 2) {
          analogWrite(sexPin, fadeValue);
          digitalWrite(13, HIGH);
          delay(20);
        }
        // Serial.print("Repetition: ");
        // Serial.println(currentMillis);
        var++;
     }
     digitalWrite(13, LOW);
     analogWrite(sexPin, 0);

      // Serial.print("Time: ");
     // Serial.println(currentMillis);

//      Serial.print("Break time: ");
//       breakTime = random(5, 15) * 1000 * 60;      // 5 - 15 minutes
       breakTime = 12000;      // 2 minutes
//     Serial.print(breakTime / 60 / 1000);
//     Serial.println(" minutes.");
//     Serial.println("");

    digitalWrite(13, HIGH);
       delay(breakTime);
   digitalWrite(13, LOW);
   
       // Indication
      var = 0;
     while(var < 3){
        currentMillis = millis();
        for (int fadeValue = 100 ; fadeValue <= 255; fadeValue += 2) {
          analogWrite(sexPin, fadeValue);
          delay(20);
        }

        for (int fadeValue = 255 ; fadeValue >= 100; fadeValue -= 2) {
          analogWrite(sexPin, fadeValue);
          delay(20);
        }
        // Serial.print("Repetition: ");
        // Serial.println(currentMillis);
        var++;
     }
      Serial.println("Begin in 2 minutes.");
   analogWrite(sexPin, LOW);
   digitalWrite(13, HIGH);
         delay(120000);
   analogWrite(sexPin, HIGH);
   digitalWrite(13, LOW);
   
      sequenceOne = random(3, 6) * 30;
      sequenceTwo = random(1, 3) * 30;
      sequenceThree = random(15, 20);
      sequenceFour = random(1, 2) * 30;

      Serial.println("");

      // Sequence One
      Serial.print("Sequence One: ");
      Serial.print(sequenceOne * 2.2 / 60);
      Serial.println(" minutes");
      var = 0;
     while(var < sequenceOne){
        currentMillis = millis();
        for (int fadeValue = 100 ; fadeValue <= 240; fadeValue += 2) {
          analogWrite(sexPin, fadeValue);
          digitalWrite(13, HIGH);
          delay(20);
        }

        for (int fadeValue = 240 ; fadeValue >= 100; fadeValue -= 2) {
          analogWrite(sexPin, fadeValue);
          digitalWrite(13, LOW);
          delay(15);
        }
        // Serial.print("Repetition: ");
        // Serial.println(currentMillis);
        var++;
     }

      // Sequence Two
      Serial.print("Sequence Two: ");
      Serial.print(sequenceTwo * 1.4 / 60);
      Serial.println(" minutes");
      var = 0;
     while(var < sequenceTwo){
        currentMillis = millis();
        for (int fadeValue = 100 ; fadeValue <= 250; fadeValue += 2) {
          analogWrite(sexPin, fadeValue);
          delay(10);
        }

        for (int fadeValue = 250 ; fadeValue >= 100; fadeValue -= 2) {
          analogWrite(sexPin, fadeValue);
          delay(5);
        }
        // Serial.print("Repetition: ");
        // Serial.println(currentMillis);
        var++;
     }
      // Sequence Three
      Serial.print("Sequence Three: ");
      Serial.print(sequenceTwo * .3);
      Serial.println(" seconds");
      var = 0;
     while(var < sequenceThree){
        currentMillis = millis();
        for (int fadeValue = 150 ; fadeValue <= 255; fadeValue += 2) {
          analogWrite(sexPin, fadeValue);
          delay(2);
        }

        for (int fadeValue = 255 ; fadeValue >= 150; fadeValue -= 2) {
          analogWrite(sexPin, fadeValue);
          delay(1);
        }
        // Serial.print("Repetition: ");
        // Serial.println(currentMillis);
        var++;
     }
      // Sequence Four
      Serial.print("Sequence Four: ");
      Serial.print(sequenceFour * .4 / 60);
      Serial.println(" minutes");
      var = 0;
     while(var < sequenceFour){
        currentMillis = millis();
        for (int fadeValue = 40 ; fadeValue <= 240; fadeValue += 5) {
          analogWrite(sexPin, fadeValue);
          delay(15);
        }
        for (int fadeValue = 255 ; fadeValue >= 40; fadeValue -= 5) {
          analogWrite(sexPin, fadeValue);
          delay(10);
        }
         // Serial.print("Repetition: ");
        // Serial.println(currentMillis);
        var++;
     }
     Serial.println("");
   }
   //second variation 20170405
   //20x(5sec on 15sec off)
       for (int i=0; i <= 19; i++){
        digitalWrite (sexPin, HIGH);
        digitalWrite(ledpin, LOW);

        delay(5000);
        digitalWrite (sexPin, LOW);
        digitalWrite(ledpin, HIGH);

        delay(15000);
      }

}


void loop() {

  analogWrite (sexPin, 0); //Turn off toy

  digitalWrite(ledpin, HIGH); //Turn off internal & external LED
  randNum = random (500,9000)*5; // Get a random number
  Serial.print("Delaying (sec): ");
  Serial.println(randNum/1000+1); //Debugging
  delay (randNum/5);

  randPattern=random(maxPattern)+1;
  Serial.print("Pattern number: ");
  Serial.println(randPattern); //Debugging

  switch(randPattern) {

    case 1:
 // Run at random intensity for 10-45 seconds
      randNum = random(1000,4500) * 10;
      randIntensity = random (100,255)+1;
      analogWrite (sexPin,randIntensity);
      digitalWrite(ledpin, LOW);
      delay (randNum);
    break;

    case 2:
 // oh eh oh eh oh eh
      analogWrite (sexPin, 127);
      digitalWrite(ledpin, LOW);

      delay (1000);
      analogWrite (sexPin, 255);
      digitalWrite(ledpin, LOW);

      delay (1600);
      analogWrite (sexPin, 127);
      digitalWrite(ledpin, LOW);

      delay (1000);
      analogWrite (sexPin, 255);
      digitalWrite(ledpin, LOW);

      delay (1600);
      analogWrite (sexPin, 127);
      digitalWrite(ledpin, LOW);

      delay (1000);
      analogWrite (sexPin, 255);
      digitalWrite(ledpin, LOW);

      delay (1000);
    break;

    case 3:
 // bzz bzz (bzz bzz bzz) bzzzzzzzzzz
      randNum=random(0,4)+1;
      for (int i=0; i <= randNum; i++){
        analogWrite (sexPin, 255);
        digitalWrite(ledpin, LOW);

        delay(300);
        analogWrite (sexPin, 50);
        digitalWrite(ledpin, HIGH);

        delay(150);
      }
      randNum=random(2000,12000);
      analogWrite(sexPin,255);
      digitalWrite(ledpin, LOW);

      delay(randNum);
    break;

    case 4:
 // bzz bzz bzzzzzzzz bzz bzz bzz (bzz bzz bzz)
      analogWrite (sexPin, 127);
      digitalWrite(ledpin, LOW);

      delay(500);
      analogWrite (sexPin, 50);
      digitalWrite(ledpin, HIGH);

      delay(100);
      analogWrite (sexPin, 190);
      digitalWrite(ledpin, LOW);

      delay(500);
      analogWrite (sexPin, 50);
      digitalWrite(ledpin, HIGH);

      delay(100);
      randNum=random(2000,12000);
      analogWrite(sexPin,255);
      digitalWrite(ledpin, LOW);

      delay(randNum);
      randNum=random(4)+3;
      for (int i=0; i <= randNum; i++){
        analogWrite (sexPin, 255);
        digitalWrite(ledpin, LOW);

        delay(300);
        analogWrite (sexPin, 50);
        digitalWrite(ledpin, HIGH);

        delay(150);
      }
    break;

    case 5:
 // pulse pulse pulse pulse (pulse pulse pulse pulse pulse pulse pulse)
      randNum=random(8)+3;
      for (int i=0; i <= randNum; i++){
        randIntensity=random(100,255);
        analogWrite (sexPin, randIntensity);
        digitalWrite(ledpin, LOW);

        delay(300);
        analogWrite (sexPin, 50);
        digitalWrite(ledpin, HIGH);

        delay(150);
      }
    break;

    case 6:
 // random fade out
      randNum=random(3000,6000);
      digitalWrite(ledpin, LOW);
      delay(randNum);

      lowLimiet = random(9,99);
      upperLimiet = random(lowLimiet+51,255);
      analogWrite (sexPin, upperLimiet);
      for(int fadeValue = upperLimiet ; fadeValue >= lowLimiet; fadeValue -=1) {
        // sets the value (range from 0 to 255):
        analogWrite(sexPin, fadeValue);
        // wait for 40 milliseconds
        delay(40);
      }
    break;

    case 7:
 // fade out medium - fade out lower
      randNum=random(1000,3000);
      analogWrite (sexPin, 255);
      digitalWrite(ledpin, LOW);

      delay(randNum);
      for(int fadeValue = 255 ; fadeValue >= 100; fadeValue -=1) {
        analogWrite(sexPin, fadeValue);
        delay(40);
      }
      for(int fadeValue = 255 ; fadeValue >= 30; fadeValue -=1) {
        analogWrite(sexPin, fadeValue);
        delay(50);
      }
    break;

    case 8:
 // fade up down
      randNum=random(1000,4000);
      digitalWrite (ledpin,LOW);
      for(int fadeValue = 50 ; fadeValue >= 255; fadeValue +=1) {
        analogWrite(sexPin, fadeValue);
        delay(200);
      }
      delay(randNum);
      for(int fadeValue = 255 ; fadeValue >= 30; fadeValue -=1) {
        analogWrite(sexPin, fadeValue);
        delay(40);
      }
    break;

    case 9:
 // pulse up
      for (int pulses=2 ; pulses <=10; pulses +=1) {
        randIntensity=(pulses*20)+55;
        analogWrite (sexPin, randIntensity);
        digitalWrite(ledpin, LOW);

        delay(300);
        analogWrite (sexPin, 50);
        digitalWrite(ledpin, HIGH);

        delay(150);
      }
    break;

   case 10:
 // pulse ... pulse (pulse pulse pulse pulse pulse pulse pulse)
      randNum=random(8)+25;
      for (int i=0; i <= randNum; i++){
        randIntensity=random(100,255);
        analogWrite (sexPin, randIntensity);
        digitalWrite(ledpin, LOW);

        delay(180);
        analogWrite (sexPin, 50);
        digitalWrite(ledpin, HIGH);

        delay(110);             
      }
    break;


    case 11:
 // Repitition fade up down
      digitalWrite (ledpin,LOW);
      var = 1;
      while(var<11) {
        for(int fadeValue = 20 ; fadeValue >= 255; fadeValue +=var) {
          analogWrite(sexPin, fadeValue);
          delay(20);
        }
        for(int fadeValue = 255 ; fadeValue >= 20; fadeValue -=var) {
          analogWrite(sexPin, fadeValue);
          delay(10);
        }
        var++;
      }

      var = 1;
      while(var<11) {
        for(int fadeValue = 30 ; fadeValue >= 255; fadeValue +=2) {
          analogWrite(sexPin, fadeValue);
          delay(2);
        }
        for(int fadeValue = 255 ; fadeValue >= 30; fadeValue -=2) {
          analogWrite(sexPin, fadeValue);
          delay(1);
        }
        var++;
      }
    analogWrite (sexPin, 0); //Turn off toy
    break;
   

  } //end switch
} //end loop

Where I start with "Prepare" for getting my penis hard, then a standard 4 sequence routine for getting ready and then randomly (from 11 possibilities) different stimulations for the edging.
The led 13 lights up when the vibrator is off so that I have a check that everything is still working and there is, for example, no power cut.
It was basic idea was from "Franklin's Sex Tech: The Tormentor".
An example of the connections: https://www.instructables.com/12V-Motor-Control-With-5V-Arduino-and-NPN-Transist/
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Re: Ideas for "Game-Realease-Metohd"

Postby guurhack » 15 Oct 2020, 20:38

Do you also use it as a method of release?
I was thinking that the cell phone would send numbers from 0 to 10 with 0 being the release method and the other 9 leaving it for Teasing
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Re: Ideas for "Game-Realease-Metohd"

Postby kinbaku » 16 Oct 2020, 09:28

guurhack wrote:Do you also use it as a method of release?
I was thinking that the cell phone would send numbers from 0 to 10 with 0 being the release method and the other 9 leaving it for Teasing

At the moment I am not using it as a release method.
Lately I have been using CodeLocker and TimeLockerForImages.
When I am blindfolded, I use the alarm of my cell phone when the time has expired and as a sign that I can free myself.
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