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Dependencies:   mbed PowerControl

Fork of Projet_S5 by Jonathan Tousignant

analyzer.cpp

Committer:
joGenie
Date:
2014-04-07
Revision:
10:61b4d6c67dd7
Parent:
9:40197c24ce2c
Child:
11:9c0786fc06b4

File content as of revision 10:61b4d6c67dd7:

/*!
 *  \file analyzer.cpp
 *  \brief Class that analyzes the mouvement in C and C++
 *  \author Equipe P02
 *  \version 0.1
 *  \date 02/04/2014
 */

#include "analyzer.h"
 
Analyzer::Analyzer()
{
    string pan("ACE");
    
    trame = new Trame(p13, p14);
    trame->sendATCommand("ID", pan.c_str(), pan.length());// Set le PANID selon le fichier de config
    trame->sendATCommand("WR", 0, 0);    // Écrit la valeur du PANID en mémoire
    trame->sendATCommand("AC", 0, 0);    // Applique les changements effectués
    
    /*allMouvement[0x0002] = new Mouvement(0x0002, 0x0002, "Z vertical, main face au ciel");
    allMouvement[0x0003] = new Mouvement(0x0003, 0x0003, "Z vertical, main face au ciel INVERSE");
    allMouvement[0x0004] = new Mouvement(0x0004, 0x0004, "Z vertical, main face au sol");
    allMouvement[0x0005] = new Mouvement(0x0005, 0x0005, "Z vertical, main face au sol INVERSE");
    allMouvement[0x0006] = new Mouvement(0x0006, 0x0006, "Z horizontal");
    allMouvement[0x0007] = new Mouvement(0x0007, 0x0007, "Z horizontal INVERSE");

    allMouvement[0x0020] = new Mouvement(0x0020, 0x0020, "X vertical, main face au ciel");
    allMouvement[0x0030] = new Mouvement(0x0030, 0x0030, "X vertical, main face au ciel INVERSE");
    allMouvement[0x0040] = new Mouvement(0x0040, 0x0040, "X vertical, main face au sol");
    allMouvement[0x0050] = new Mouvement(0x0050, 0x0050, "X vertical, main face au sol INVERSE");
    allMouvement[0x0060] = new Mouvement(0x0060, 0x0060, "X horizontal");
    allMouvement[0x0070] = new Mouvement(0x0070, 0x0070, "X horizontal INVERSE");

    allMouvement[0x0200] = new Mouvement(0x0200, 0x0200, "Y vertical, main face au ciel");
    allMouvement[0x0300] = new Mouvement(0x0300, 0x0300, "Y vertical, main face au ciel INVERSE");
    allMouvement[0x0400] = new Mouvement(0x0400, 0x0400, "Y vertical, main face au sol");
    allMouvement[0x0500] = new Mouvement(0x0500, 0x0500, "Y vertical, main face au sol INVERSE");
    allMouvement[0x0600] = new Mouvement(0x0600, 0x0600, "Y horizontal");
    allMouvement[0x0700] = new Mouvement(0x0700, 0x0700, "Y horizontal INVERSE");*/
}
 
Analyzer::~Analyzer()
{
    allMouvement.clear();
}
 
void Analyzer::setMinMax(signed char* values)
{
    x.setMinMax(values[0]);
    y.setMinMax(values[1]);
    z.setMinMax(values[2]);
}
 
void Analyzer::checkMouvement()
{
    bool deplacement[3] = {0};
    int code_mouvement = 0;
    
    deplacement[0] = x.isMouvement();
    deplacement[1] = y.isMouvement();          
    deplacement[2] = z.isMouvement();  
    
    Serial pc(USBTX, USBRX); 
    
    // Mouvement en x
    if(deplacement[0])
    {
        if(x.initial > SEUIL_DETECTION)
        {
            code_mouvement = 0x1 << 9; // 0010
        }
        else if(x.initial < -SEUIL_DETECTION)
        {       
            code_mouvement = 0x2 << 9; // 0100
        }
        else
        {
            code_mouvement = 0x3 << 9; // 0110
        }
        
        if(!x.sens)
        {
            code_mouvement = 0x1 << 8; // 0xx1 
        }
    }
    
    // Mouvement en y  
    if(deplacement[1])
    {
        if(y.initial > SEUIL_DETECTION)
        {
            code_mouvement = 0x1 << 5; // 0xxx 0010
        }
        else if(y.initial < -SEUIL_DETECTION)
        {
            code_mouvement = 0x2 << 5; // 0xxx 0100
        }
        else
        {
            code_mouvement = 0x3 << 5; // 0xxx 0110
        }
        
        if(!y.sens)
        {
            code_mouvement = 0x1 << 4; // 0xxx 0yy1 
        }
    }
    
    // Mouvement en z
    if(deplacement[2])
    {
        if(z.initial > SEUIL_DETECTION)
        {
            code_mouvement = 1 << 1; // 0xxx 0yyy 0010
        }
        else if(z.initial < -SEUIL_DETECTION)
        {
            code_mouvement = 2 << 1; // 0xxx 0yyy 0100
        }
        else
        {
            code_mouvement = 3 << 1; // 0xxx 0yyy 0110
        }
        
        if(!z.sens)
        {
            code_mouvement = 1 << 0; // 0xxx 0yyy 0zz1
        }
    }

    pc.printf("\n\r mouvement: %s, %s, %s", deplacement[0] ? "vrai" : "faux",
                                            deplacement[1] ? "vrai" : "faux",
                                            deplacement[2] ? "vrai" : "faux");
    // pc.printf("\n\rInit: %i, min: %i, max: %i, sens: %s", x.initial, x.min, x.max, x.sens ? "acceleration":"deceleration");
    // pc.printf("\n\rInit: %i, min: %i, max: %i, sens: %s", y.initial, y.min, y.max, y.sens ? "acceleration":"deceleration");
    // pc.printf("\n\rInit: %i, min: %i, max: %i, sens: %s", z.initial, z.min, z.max, z.sens ? "acceleration":"deceleration");
}
 
void Analyzer::setInitial(signed char* init)
{
    x.setInitial(init[0]);
    y.setInitial(init[1]);
    z.setInitial(init[2]);
}
 
extern "C" void *Analyzer_C_new()
{
    return new Analyzer();
}
 
extern "C" void Analyzer_C_delete(void *analyzer)
{
    Analyzer *an = (Analyzer*)analyzer;
    delete an;    
}
 
extern "C" void Analyzer_C_setMinMax(signed char* values, void *analyzer)
{
    Analyzer *an = (Analyzer*)analyzer;
    an->setMinMax(values);    
}
 
extern "C" void Analyzer_C_setInitial(signed char* init, void *analyzer)
{
    Analyzer *an = (Analyzer*)analyzer;
    an->setInitial(init);    
}
 
extern "C" void Analyzer_C_checkMouvement(void *analyzer)
{
    Analyzer *an = (Analyzer*)analyzer;
    an->checkMouvement();
}