2022-12-22 21:35:49 +00:00
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#include "i2c_maitre.h"
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#include "pico/stdlib.h"
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#include <stdio.h>
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#define APDS_ADRESSE 0x39
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inline void cc3_rgb2tls (uint8_t rouge, uint8_t vert, uint8_t bleu);
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void APDS9960_Init(){
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char registre;
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char valeur;
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i2c_maitre_init();
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// Désactivation du module pour le configurer
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registre = 0x80;
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valeur = 0x0;
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while(i2c_ecrire_registre(APDS_ADRESSE, registre, valeur) != I2C_SUCCES);
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2022-11-16 17:59:46 +00:00
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// Registres à configurer
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2022-12-22 21:35:49 +00:00
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// ATIME (0x81): temps d'acquisition
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// | Valeur | Nb cycles | Temps |
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// | 0 | 255 | 712 ms |
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// | 182 | 72 | 200 ms |
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// | 255 | 1 | 2,78 ms |
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registre = 0x81;
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valeur = 220;
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while(i2c_ecrire_registre(APDS_ADRESSE, registre, valeur) != I2C_SUCCES);
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// CONTROL<AGAIN> (0x8F<1:0>): Gain
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// 0 : x1
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// 1 : x4
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// 2 : x16
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// 3 : x64
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registre = 0x8F;
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valeur = 0x03;
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while(i2c_ecrire_registre(APDS_ADRESSE, registre, valeur) != I2C_SUCCES);
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// Temps d'attente : Wen, WTIME, WLONG
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2022-11-16 17:59:46 +00:00
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// ENABLE (PON) Address : 0x80 - Après les autres registres !!
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// RESERVED | Gesture En | Prox. Interrupt En | ALS Interrupt En | Wait En | Proximity Detect En | ALS En | Power On |
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// Ob0000 0011 => 0x03
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2022-12-22 21:35:49 +00:00
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registre = 0x80;
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valeur = 0x3;
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while(i2c_ecrire_registre(APDS_ADRESSE, registre, valeur) != I2C_SUCCES);
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}
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int APDS9960_Lire(){
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unsigned char reception[8];
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uint16_t clear, rouge, vert, bleu;
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i2c_lire_registre(APDS_ADRESSE, 0x94, reception, 8);
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clear = (uint16_t) reception[0] + (uint16_t) reception[1] << 8;
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rouge = (uint16_t) reception[2] + (uint16_t) reception[3] << 8;
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vert = (uint16_t) reception[4] + (uint16_t) reception[5] << 8;
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bleu = (uint16_t) reception[6] + (uint16_t) reception[7] << 8;
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printf("clear:%u\n", clear/256);
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printf("rouge:%u\n", rouge/256);
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printf("vert:%u\n", vert/256);
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printf("bleu:%u\n", bleu/256);
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cc3_rgb2tls(rouge/256, vert/256, bleu/256);
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return 1;
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}
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inline void cc3_rgb2tls (uint8_t rouge, uint8_t vert, uint8_t bleu)
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{
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uint8_t hue, sat, val;
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uint8_t rgb_min, rgb_max;
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rgb_max = rouge;
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rgb_min = rouge;
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if (rouge > rgb_max)
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rgb_max = rouge;
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if (vert > rgb_max)
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rgb_max = vert;
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if (bleu > rgb_max)
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rgb_max = bleu;
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if (rouge < rgb_min)
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rgb_min = rouge;
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if (vert < rgb_min)
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rgb_min = vert;
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if (bleu < rgb_min)
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rgb_min = bleu;
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// compute V
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val = rgb_max;
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if (val == 0) {
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printf("val:0");
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hue = sat = 0;
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return;
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}
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// compute S
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sat = 255 * (rgb_max - rgb_min) / val;
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if (sat == 0) {
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printf("sat:0");
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return;
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}
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// compute H
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if (rgb_max == rouge) {
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hue =
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0 + 43 * (int16_t)(vert -
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bleu) / (rgb_max - rgb_min);
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}
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else if (rgb_max == vert) {
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hue =
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85 + 43 * (int16_t)(bleu -
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rouge) / (rgb_max - rgb_min);
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}
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else { /* rgb_max == blue */
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2022-11-16 17:59:46 +00:00
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2022-12-22 21:35:49 +00:00
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hue =
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171 + 43 * (int16_t)(rouge -
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vert) / (rgb_max - rgb_min);
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}
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2022-11-16 17:59:46 +00:00
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2022-12-22 21:35:49 +00:00
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printf("val:%u\n", val);
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printf("sat:%u\n", sat);
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printf("teinte:%u\n", hue*360/250);
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2022-11-16 17:59:46 +00:00
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}
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