3 files changed, 88 insertions, 19 deletions
diff --git a/libraries/Bridge/examples/ConsolePixel/ConsolePixel.ino b/libraries/Bridge/examples/ConsolePixel/ConsolePixel.ino
new file mode 100644
index 0000000..4201465
--- /dev/null
+++ b/libraries/Bridge/examples/ConsolePixel/ConsolePixel.ino
@@ -0,0 +1,58 @@
+/*
+  Console Pixel
+ 
+ An example of using the Arduino board to receive data from the 
+ Console on the Arduino Yun.  In this case, the Arduino boards turns on an LED when
+ it receives the character 'H', and turns off the LED when it
+ receives the character 'L'.
+ 
+ To see the Console, pick your Yun's name and IP address in the Port menu
+ then open the Port Monitor. You can also see it by opening a terminal window
+ and typing 
+ ssh root@ yourYunsName.local 'telnet localhost 6571'
+ then pressing enter. When prompted for the password, enter it.
+ 
+ 
+ The circuit:
+ * LED connected from digital pin 13 to ground
+ 
+ created 2006
+ by David A. Mellis
+ modified 25 Jun 2013
+ by Tom Igoe 
+ 
+ This example code is in the public domain.
+ 
+ */
+#include <Console.h>
+
+const int ledPin = 13; // the pin that the LED is attached to
+char incomingByte;      // a variable to read incoming Console data into
+
+void setup() {
+  // initialize Console communication:
+  Bridge.begin();
+  Console.begin();
+  while(!Console);  // wait for the Console to open from the remote side
+  Console.println("type H or L to turn pin 13 on or off");
+  // initialize the LED pin as an output:
+  pinMode(ledPin, OUTPUT);
+}
+
+void loop() {
+  // see if there's incoming Console data:
+  if (Console.available() > 0) {
+    // read the oldest byte in the Console buffer:
+    incomingByte = Console.read();
+    Console.println(incomingByte);
+    // if it's a capital H (ASCII 72), turn on the LED:
+    if (incomingByte == 'H') {
+      digitalWrite(ledPin, HIGH);
+    } 
+    // if it's an L (ASCII 76) turn off the LED:
+    if (incomingByte == 'L') {
+      digitalWrite(ledPin, LOW);
+    }
+  }
+}
+
diff --git a/libraries/Bridge/examples/ShellCommands/ShellCommands.ino b/libraries/Bridge/examples/ShellCommands/ShellCommands.ino
index 47579f8..d2f9b7a 100644
--- a/libraries/Bridge/examples/ShellCommands/ShellCommands.ino
+++ b/libraries/Bridge/examples/ShellCommands/ShellCommands.ino
@@ -3,18 +3,21 @@
  Running shell coommands using Process class. 
  
  This sketch demonstrate how to run linux shell commands
- using an Arduino Yún. 
-
+ using an Arduino Yún. It runs the wifiCheck script on the linino side
+ of the Yun, then uses grep to get just the signal strength line.
+ Then it uses parseInt() to read the wifi signal strength as an integer,
+ and finally uses that number to fade an LED using analogWrite().
+ 
  The circuit:
- * Arduino Yun
+ * Arduino Yun with LED connected to pin 9
  
  created 12 Jun 2013
  by Cristian Maglie
- modified 21 June 2013
+ modified 25 June 2013
  by Tom Igoe
  
  This example code is in the public domain.
-
+ 
  */
 
 #include <Process.h>
@@ -27,15 +30,23 @@ void setup() {
 
 void loop() {
   Process p;
-  // This command line prints the name of the wireless network
-  // that the board is connected to, or the network which the board has created:
-  p.runShellCommand(F("lua /usr/lib/lua/pretty_wifi_info.lua | grep SSID"));
+  // This command line runs the wifiCheck script, (lua /arduino/pretty...), then 
+  // sends the result to the grep command to look for a line containing the word
+  // "Signal:"  the result is passed to this sketch:
+  p.runShellCommand("lua /arduino/pretty_wifi_info.lua | grep Signal");
 
-  // Read command output
+  // do nothing until the process finishes, so you get the whole output:
+  while(p.running());  
+
+  // Read command output. runShellCommand() should have passed "Signal: xx&":
   while (p.available()) {
-    char c = p.read();
-    Serial.print(c);
+    int result = p.parseInt();                // look for an integer
+    int signal = map(result, 0, 100, 0, 255); // map result from 0-100 range to 0-255
+    analogWrite(9, signal);                   // set the brightness of LED on pin 9
+    Serial.println(result);                   // print the number as well
   } 
-  while (true);    // do nothing more
+  delay(5000);    // wait 5 seconds before you do it again
 }
 
+
+
diff --git a/libraries/Bridge/examples/XivelyClient/XivelyClient.ino b/libraries/Bridge/examples/XivelyClient/XivelyClient.ino
index 48b1403..69f979c 100644
--- a/libraries/Bridge/examples/XivelyClient/XivelyClient.ino
+++ b/libraries/Bridge/examples/XivelyClient/XivelyClient.ino
@@ -33,10 +33,10 @@ String dataString = "";
 void setup() {
   // start serial port:
   Bridge.begin();
-  Console.begin();
+  Serial.begin(9600);
 
-  while(!Console);    // wait for Network Console to open
-  Console.println("Xively client");
+  while(!Serial);    // wait for Network Serial to open
+  Serial.println("Xively client");
 
   // Do a first update immediately
   updateData();
@@ -83,7 +83,7 @@ void sendData() {
   // sendData function finishes the resources are immediately
   // released. Declaring it global works too, BTW.
   Process xively;
-  Console.print("\n\nSending data... ");
+  Serial.print("\n\nSending data... ");
   xively.begin("curl");
   xively.addParameter("-k");
   xively.addParameter("--request");
@@ -94,13 +94,13 @@ void sendData() {
   xively.addParameter(apiString); 
   xively.addParameter(url);
   xively.run();
-  Console.println("done!");
+  Serial.println("done!");
 
   // If there's incoming data from the net connection,
-  // send it out the Console:
+  // send it out the Serial:
   while (xively.available()>0) {
     char c = xively.read();
-    Console.write(c);
+    Serial.write(c);
   }
 
 }