AdaFruit Wave Shield Librairie AFwave

Introduction
FAQ
Conception
Assemblage
L'utiliser!
- Carte SD
- Conversion
- Lib. AFwave
- WaveHC_dap
- WaveHC_6
- Exemples
Téléchargement
Acheter un Wave Shield

Avoir plus de RAM et de Flash!

Note MCHobby: Les plateforme Arduino sont maintenant distribuée avec un ATmega328.

Cette section n'est vraiment pertinente que si vous ne possédez pas d'ATmega328.

Avant d'essayer de jouer de l'audio, vous aurez besoin de faire un peu de place

la mémoire RAM d'Arduino, cela évitera que cela se termine en vilain

dépassement de pile (stack-overflow).

Suivez ces instructions (anglais) pour savoir comment avoir plus

de RAM en réduisant la taille de la mémoire tampon de la librairie série (Serial library).

Vous n'aurez pas besoin de faire cela si vous avez un ATmega328.

Notez que la librairie est vraiment grosse (approximativement 10K). Si vous voulez faire beaucoup plus avec Arduino, il est vivement conseillé de faire un Upgrade vers un ATmega328. Ce shield a été développé en prévoyant la disponibilité d'un ATmega328.

A tour of the AF_Wave library

Ceci est une description de la librairie AF_Wave library, qui est la librairie par 'défaut' pour le Shield Wave. Cependant, il y a une librairie 'mise-à-jour' et supérieure, WaveHC écrite par Mr Fat16 sur le forums d'AdaFruit. Cette librairie est puissante, fonctionne avec plus de cartes et formatage de carte et utilise moins d'espace.

Ce tutoriel est ici pour ceux qui veulent utiliser la librairie classique AF_Wave library mais nous suggérons d'également vérifier WaveHC (google code). Elle est vraiment similaire à la librairie AF_Wave, vous pourrez probablement passer de l'une à l'autre.

Nous avons également un article qui passe la librairie WaveHC en revue

Initialize the card

The first thing that must be done is initializing the SD card for reading. You should copy & paste this code from the examples since there's really only one way to do it.

Note that this here is a snippet, use the examples in the library for the 'full listing'

AF_Wave card;


void setup() 
{
  ...
  
  if (!card.init_card()) {
    putstring_nl("Card init. failed!"); return;
  }
  if (!card.open_partition()) {
    putstring_nl("No partition!"); return;
  }
  if (!card.open_filesys()) {
    putstring_nl("Couldn't open filesys"); return;
  }

 if (!card.open_rootdir()) {
    putstring_nl("Couldn't open dir"); return;
  }
}
...

This code will try to initialize the card, open the partition table, open the FAT16 filesystem and finally open the root directory. If it fails it will print out an error message.

Looking for files

There isn't a lot of interface code for going through the root directory. Basically you can reset the directory (start over from beginning) and get the name of the next file. The files are not organized alphabetically but rather in the order that they were created on the card.

You'll need to make a character array 13 characters long to store the 8.3 + terminating 0 of the file. Here is an example of displaying the name of each file available. When done, it resets the directory.

void ls() {
  char name[13];
  int ret;
  
  card.reset_dir();
  putstring_nl("Files found:");
  while (1) {
    ret = card.get_next_name_in_dir(name);
    if (!ret) {
       card.reset_dir();
       return;
    }
    Serial.println(name);
  }
}

Opening a file for playing

There are two steps to opening a file for playing. The first is to just open the file itself, then the file must be converted to a wavefile. That means the file is read and checked for a wavetable header. To open a file, you just need the name, you can pass in a string such as "MYSOUND.WAV" or read through the directory and use the name returned from get_next_name_in_dir(). Since long names arent supported (to keep the library smaller) you may want to use ls() function above to see what the 8.3 format name of the file is.

AF_Wave card;
File f;
Wavefile wave;      // only one!



void playfile(char *name) {
   f = card.open_file(name);
   if (!f) {
      putstring_nl(" Couldn't open file"); return;
   }
   if (!wave.create(f)) {
     putstring_nl(" Not a valid WAV"); return;
   }


  ...
}

Playing the file

Finally we can play the file! Its quite easy, once the wavefile has been opened as above, simply call wave.play() to being playback. The Arduino plays audio in an interrupt, which means that wave.play() returns immediately. You can then mess with sensors, print feedback or buttons or whatever.

While the wavefile is playing, you can check its status with the variable wave.isplaying . If the variable is 1 then the audio is playing. If its 0 that means it has finished playing

You can stop playback by calling wave.stop()

Closing the file

When you're done playing audio from a file, you must close it! You can close the file by calling card.close_file(f) where f is the file you created using card.open_file(name)

Changing sample rate

This is sort of strange, but may be useful if, say, you have a sine wave or sample that youd like to change the pitch of or if youd like to 'fast forward' through some music

The sample rate (i.g. 22kHz) is stored in wave.dwSamplesPerSec. It will be initially set to whatever the wave file is supposed to be. Simply assign a new sample rate to the variable to change it on the fly.

See here for more information.

Saving & restoring the play position

If, say, you want to know where along in the wave file you are, that information is also available in wave.getSize() (the number of bytes in the entire wave) and wave.remainingBytesInChunk (how many bytes are left to play)

You can set the current place to play from using wave.seek(), the Arduino will immediately start to fastforward to that location. For example, wave.seek(0) will take you to the beginning, wave.seek(wave.getSize()/2) will take you to the middle of the file.

Volume adjust

You can change the volume of the audio 'digitally' on the fly. Note that this doesn't change the volume control potentiometer, it actually just reduces the digital values going to the DAC. Thus the quality of the audio will be degraded. However, it may come in handy so it has been included. Since it slows down playback a bit, it is not enabled by default. To enable digital volume control, open up wave.cpp in the library folder and look for the line #define DVOLUME 0 and change the 0 to a 1. Then delete all the files in the library folder that end with .o, this will force the software to recompile the library when the sketch is compiled.

The volume is controlled by a variable in the Wavefile object. For example, if you have Wavefile wave at the top of your sketch, then you can set the volume by calling wave.volume = 4. The volume can be set from 0 to 12. A volume value of 0 is maximum, and 12 is silence. Anything higher than 12 will be the same as 12.

See here for more information.

Traduit avec l'autorisation d'AdaFruit Industries - Translated with the permission from Adafruit Industries - www.adafruit.com

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