Miguel Ruiz
/
H261_decoder
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Dependencies: SDL_lib2 SX1276Lib mbed
Revision 1:1ed97958d0f3, committed 2017-01-11
- Comitter:
- miruga27
- Date:
- Wed Jan 11 20:18:38 2017 +0000
- Parent:
- 0:5bd441b8ab2d
- Commit message:
- JPEG Compressor and SX1276 transmitter
Changed in this revision
--- a/functions_dec.h Thu Sep 22 00:04:30 2016 +0000
+++ b/functions_dec.h Wed Jan 11 20:18:38 2017 +0000
@@ -25,6 +25,16 @@
#define RAIZ2 1.414214
#define PI16 0.19635
+const float coeff[8][8]={
+ {1.000, 0.980658, 0.923381, 0.830384, 0.705265, 0.552863, 0.379075, 0.190623},
+ {1.000000, 0.830384, 0.379075, -0.200829, -0.712605, -0.982642, -0.919336, -0.544161},
+ {1.000000, 0.552863, -0.388685, -0.982642, -0.697848, 0.211013, 0.931171, 0.818607},
+ {1.000000, 0.190623, -0.927326, -0.544161, 0.719867, 0.818607, -0.407777, -0.974070},
+ {1.000000, -0.200829, -0.919336, 0.570086, 0.690356, -0.847373, -0.350003, 0.987954},
+ {1.000000, -0.561505, -0.369424, 0.976372, -0.727052, -0.159885, 0.906605, -0.858241},
+ {1.000000, -0.836138, 0.398253, 0.170150, -0.682790, 0.971663, -0.942098, 0.603785},
+ {1.000000, -0.982642, 0.931171, -0.847373, 0.734158, -0.595456, 0.436082, -0.261569} };
+
void IDCT(int matrix[8][8][3],short int f[HEIGHT][WIDTH][3],int p_fil,int p_col){
int i=0,j=0,u,v;
float cu=1,cv=1;
@@ -45,7 +55,8 @@
float dato=0.0;
float dato2=0.0;
float dato3=0.0;
-
+
+ float acum0=0.0,acum1=0.0,acum2=0.0;
for(u=0;u<8;u++){
@@ -59,26 +70,28 @@
}
else cv=1.0;
- dato=(float)(cos((float)((((+j-p_col)<<1)+1)*v*PI16)));
- dato2=(float)(cos((float)((((i-p_fil)<<1)+1)*u*PI16)));
+ /*dato=(float)(cos((float)((((j-p_col)*2)+1)*v*PI16)));
+ dato2=(float)(cos((float)((((i-p_fil)*2)+1)*u*PI16)));*/
+ dato=coeff[j-p_col][v];//(float)(cos((float)((((j-p_col)*2)+1)*v*PI16)));
+ dato2=coeff[i-p_fil][u];//(float)(cos((float)((((i-p_fil)*2)+1)*u*PI16)));
dato3=(float)((cu*cv)/4);
- f[i][j][0]+=(short int)(dato*dato2*(matrix[u][v][0]))*dato3;//crominancia
- f[i][j][1]+=(short int)(dato*dato2*(matrix[u][v][1]))*dato3;//crominancia
- f[i][j][2]+=(short int)(dato*dato2*(matrix[u][v][2]))*dato3;//luminancia
+ acum0+=(float)(dato*dato2*(matrix[u][v][0]))*dato3;//crominancia
+ acum1+=(float)(dato*dato2*(matrix[u][v][1]))*dato3;//crominancia
+ acum2+=(float)(dato*dato2*(matrix[u][v][2]))*dato3;//luminancia
}
}
-
-
-
+
+ f[i][j][0]=(short int)acum0;
+ f[i][j][1]=(short int)acum1;
+ f[i][j][2]=(short int)acum2;
}
}
-
}
void yuv_to_rgb(short int f[HEIGHT][WIDTH][3]){
@@ -87,7 +100,7 @@
int i=0,j=0;
float r=0.0,g=0.0,b=0.0;
- char cad[180];
+
int cont;
@@ -96,16 +109,16 @@
- b=(f[i][j][2]-16)*1.164+(f[i][j][1]-128)*2.017;
- g=(f[i][j][2]-16)*1.164-(f[i][j][0]-128)*0.813-(f[i][j][1]-128)*0.392;
- r=((f[i][j][2])-16)*1.164+((f[i][j][0])-128)*1.596;
+ b=(f[i][j][0])+(f[i][j][1]-128)*1.765;
+ g=(f[i][j][0])-(f[i][j][2]-128)*0.711-(f[i][j][1]-128)*0.343;
+ r=((f[i][j][0]))+((f[i][j][2])-128)*1.400;
/* r=(*(pixel+2)-16)*1.164+(*(pixel)-128)*1.793;
g=(*(pixel+2)-16)*1.164-(*(pixel+1)-128)*0.213-(*(pixel)-128)*0.533;
b=(*(pixel+2)-16)*1.164+((*(pixel+1))-128)*2.112;*/
- if(r>255) r=255;
+ if(b>255) r=255;
if(g>255) g=255;
- if(b>255) b=255;
+ if(r>255) b=255;
if(r<0) r=0;
if(g<0) g=0;
@@ -189,9 +202,9 @@
for(j=0;j<WIDTH;j+=8)
for(x_block=i; x_block<i+8 ;x_block++){
for(y_block=j; y_block<j+8 ;y_block++){
- mat[x_block][y_block][2]*=luma[x_block-i][y_block-j];
+ mat[x_block][y_block][0]*=luma[x_block-i][y_block-j];
mat[x_block][y_block][1]*=croma[x_block-i][y_block-j];
- mat[x_block][y_block][0]*=croma[x_block-i][y_block-j];
+ mat[x_block][y_block][2]*=croma[x_block-i][y_block-j];
}
}
}
--- a/lora.h Thu Sep 22 00:04:30 2016 +0000
+++ b/lora.h Wed Jan 11 20:18:38 2017 +0000
@@ -1,30 +1,25 @@
-//Author: Miguel Ruiz García
-//Company: University of Cantabria. 2016
-//mail: mrg47@alumnos.unican.es
-//code for TX & RX
#include "mbed.h"
#include "lora2.h"
#include "sx1276-hal.h"
#include "debug.h"
-//#include "functions.h"
+
/* Set this flag to '1' to display debug messages on the console */
-#define DEBUG_MESSAGE 1
-
-
+#define DEBUG_MESSAGE 0
+
/* Set this flag to '1' to use the LoRa modulation or to '0' to use FSK modulation */
#define USE_MODEM_LORA 1
#define USE_MODEM_FSK !USE_MODEM_LORA
-
-#define RF_FREQUENCY 869000000 // Hz
-#define TX_OUTPUT_POWER 14 // 14 dBm
-
+
+#define RF_FREQUENCY 868000000 // Hz
+#define TX_OUTPUT_POWER 20 // 14 dBm
+
#if USE_MODEM_LORA == 1
-
- #define LORA_BANDWIDTH 1 // [0: 125 kHz,
+
+ #define LORA_BANDWIDTH 2 // [0: 125 kHz,
// 1: 250 kHz,
// 2: 500 kHz,
// 3: Reserved]
- #define LORA_SPREADING_FACTOR 10 // [SF7..SF12]
+ #define LORA_SPREADING_FACTOR 7 // [SF7..SF12]
#define LORA_CODINGRATE 1 // [1: 4/5,
// 2: 4/6,
// 3: 4/7,
@@ -32,13 +27,13 @@
#define LORA_PREAMBLE_LENGTH 8 // Same for Tx and Rx
#define LORA_SYMBOL_TIMEOUT 5 // Symbols
#define LORA_FIX_LENGTH_PAYLOAD_ON false
- #define LORA_FHSS_ENABLED true
+ #define LORA_FHSS_ENABLED false
#define LORA_NB_SYMB_HOP 4
#define LORA_IQ_INVERSION_ON false
#define LORA_CRC_ENABLED true
#elif USE_MODEM_FSK == 1
-
+
#define FSK_FDEV 25000 // Hz
#define FSK_DATARATE 19200 // bps
#define FSK_BANDWIDTH 50000 // Hz
@@ -50,19 +45,18 @@
#else
#error "Please define a modem in the compiler options."
#endif
-
-#define RX_TIMEOUT_VALUE 3500000 // in us
-#define BUFFER_SIZE 255 // Define the payload size here [min:1 max:255]
-
+
+#define RX_TIMEOUT_VALUE 9500000 // in us
+#define BUFFER_SIZE 32 // Define the payload size here
+
#if( defined ( TARGET_KL25Z ) || defined ( TARGET_LPC11U6X ) )
DigitalOut led(LED2);
#else
DigitalOut led(LED1);
#endif
-
-
+
/*
- * Global variables declarations
+ * Global variables declarations
*/
typedef enum
{
@@ -79,82 +73,80 @@
CAD,
CAD_DONE
}AppStates_t;
-
+
volatile AppStates_t State = LOWPOWER;
-
+
/*!
* Radio events function pointer
*/
static RadioEvents_t RadioEvents;
-
+
/*
* Global variables declarations
*/
SX1276MB1xAS Radio( NULL );
-
+
const uint8_t PingMsg[] = "PING";
const uint8_t PongMsg[] = "PONG";
+
+
const uint8_t AckMsg[] = "ACK";
const uint8_t EOPMsg[] = "EOP";
const uint8_t RfSMsg[] = "RfS";
+const uint8_t InitMsg[] = "INIT";
+const uint8_t PaqMsg[] = "\t\n";
+
int py=0,pu=0,pv=0,py2=0,pu2=0,pv2=0;
int py_ant=0,pu_ant=0,pv_ant=0;
int flag_y=0,flag_u=0,flag_v=0;
+short int length_y=0,length_u=0,length_v=0;
uint16_t BufferSize = BUFFER_SIZE;
uint8_t Buffer[BUFFER_SIZE];
//uint8_t Buffer2[4];
-
+int init=0;
int16_t RssiValue = 0.0;
int8_t SnrValue = 0.0;
-
+short int init_packet=0;
+int start=0;
bool first_y=true,first_u=true,first_v=true;
-void lora(short int *temp1,short int index1,short int *temp2,short int index2,short int *temp3,short int index3)
+
+void lora(short int *temp1,short int index1,short int *temp2,short int index2,short int *temp3,short int index3,short int acumulador[3])
{
- //index1=300;index2=300;index3=300;
uint8_t i;
- bool isMaster = false;//MASTER (TX) OR SLAVE(RX) ?
+ bool isMaster = false;
- //pc.baud(BPS);
- //pc.format (BITS,SerialBase::None, STOP_BITS) ;
-
-
-
- //debug( "\n\n\r SX1276 Ping Pong Demo Application \n\n\r" );
- //pc.printf("\n\n\r SX1276 Image transfer Application \n\n\r");
-
+ //debug( "\n\n\r SX1276 JPEG Compressor Application \n\n\r" );
+
// Initialize Radio driver
RadioEvents.TxDone = OnTxDone;
RadioEvents.RxDone = OnRxDone;
RadioEvents.RxError = OnRxError;
RadioEvents.TxTimeout = OnTxTimeout;
RadioEvents.RxTimeout = OnRxTimeout;
- RadioEvents.FhssChangeChannel = OnFhssChangeChannel;
Radio.Init( &RadioEvents );
// verify the connection with the board
- goto start;
while( Radio.Read( REG_VERSION ) == 0x00 )
{
- //debug( "Radio could not be detected!\n\r", NULL );
- //pc.printf( "Radio could not be detected!\n\r", NULL );
+ debug( "Radio could not be detected!\n\r", NULL );
wait( 1 );
}
- start:
+
//debug_if( ( DEBUG_MESSAGE & ( Radio.DetectBoardType( ) == SX1276MB1LAS ) ) , "\n\r > Board Type: SX1276MB1LAS < \n\r" );
//debug_if( ( DEBUG_MESSAGE & ( Radio.DetectBoardType( ) == SX1276MB1MAS ) ) , "\n\r > Board Type: SX1276MB1MAS < \n\r" );
- Radio.SetChannel( HoppingFrequencies[0] );
-
+ Radio.SetChannel( RF_FREQUENCY );
+
#if USE_MODEM_LORA == 1
//debug_if( LORA_FHSS_ENABLED, "\n\n\r > LORA FHSS Mode < \n\n\r");
//debug_if( !LORA_FHSS_ENABLED, "\n\n\r > LORA Mode < \n\n\r");
-
+
Radio.SetTxConfig( MODEM_LORA, TX_OUTPUT_POWER, 0, LORA_BANDWIDTH,
LORA_SPREADING_FACTOR, LORA_CODINGRATE,
LORA_PREAMBLE_LENGTH, LORA_FIX_LENGTH_PAYLOAD_ON,
LORA_CRC_ENABLED, LORA_FHSS_ENABLED, LORA_NB_SYMB_HOP,
- LORA_IQ_INVERSION_ON, 4000000 );
+ LORA_IQ_INVERSION_ON, 2000000 );
Radio.SetRxConfig( MODEM_LORA, LORA_BANDWIDTH, LORA_SPREADING_FACTOR,
LORA_CODINGRATE, 0, LORA_PREAMBLE_LENGTH,
@@ -163,12 +155,12 @@
LORA_IQ_INVERSION_ON, true );
#elif USE_MODEM_FSK == 1
-
- debug("\n\n\r > FSK Mode < \n\n\r");
+
+ //debug("\n\n\r > FSK Mode < \n\n\r");
Radio.SetTxConfig( MODEM_FSK, TX_OUTPUT_POWER, FSK_FDEV, 0,
FSK_DATARATE, 0,
FSK_PREAMBLE_LENGTH, FSK_FIX_LENGTH_PAYLOAD_ON,
- FSK_CRC_ENABLED, 0, 0, 0, 3000000 );
+ FSK_CRC_ENABLED, 0, 0, 0, 2000000 );
Radio.SetRxConfig( MODEM_FSK, FSK_BANDWIDTH, FSK_DATARATE,
0, FSK_AFC_BANDWIDTH, FSK_PREAMBLE_LENGTH,
@@ -176,18 +168,19 @@
0, 0, false, true );
#else
-
+
#error "Please define a modem in the compiler options."
-
+
#endif
-
+
//debug_if( DEBUG_MESSAGE, "Starting image transmission loop\r\n" );
- //pc.printf("Starting image transmission loop\r\n");
led = 0;
-
+ flag_y=0,flag_u=0,flag_v=0;
+ int finish=0;
+ first_y=true,first_u=true,first_v=true;
Radio.Rx( RX_TIMEOUT_VALUE );
- State=RX;//Estado inicial para el receptor
+
while( 1 )
{
switch( State )
@@ -195,34 +188,118 @@
case RX:
if( isMaster == true )
{
- //debug( "waiting for response....\r\n" );
if( BufferSize > 0 )
{
-
- if( strncmp( ( const char* )Buffer, ( const char* )AckMsg, 3 ) != 0 )
+ if( strncmp( ( const char* )Buffer, ( const char* )AckMsg, 3 ) == 0 )
{
led = !led;
- //debug( "Packet acknoledged....\r\n" );
- // pc.printf( "Packet acknoledged....\r\n" );
- // Send the next frame
- State = TX;
- }
+ //debug( "...Ack RX\r\n" );
+
+ Buffer[0]='\t';
+ Buffer[1]='\n';
+ //index1=20;index2=20;index3=20;
+ int pointer=0;
+ for(pointer=2;pointer<BufferSize;pointer+=2){
- else if( strncmp( ( const char* )Buffer, ( const char* )RfSMsg, 3 ) == 0 ){
+ if(flag_y==0) {//se comprueba si se ha cargado en el buffer de transmisión cada una de las componentes
+ if(first_y == true) {//en primer lugar se manda la longitud de la componente y u v
+ Buffer[pointer]=index1&0xff;//Se carga la parte baja del short int y en el siguiente byte se carga la parte alta.
+ Buffer[pointer+1]=(index1>>8)&0xff;
+ // debug("%c %c \r\n",Buffer[pointer],Buffer[pointer+1]);
+ first_y = false;
+
+ //debug( "transmitting y length...\r\n" );
+ }
+ else{
+ Buffer[pointer]=*(temp1+py) & 0x00ff;
+ Buffer[pointer+1]=(*(temp1+py)>>8) & 0x00ff;
+ py++;
+ //debug( "transmitting y data..\r\n" );
+ if(py >= index1) {
+
+ flag_y=1;
+ break;
+ //Buffer[pointer+2]='\t';
+ //pointer+=2;
+ }
+ }
+ }
+ else if(flag_u==0){
+ if(first_u == true) {
+ Buffer[pointer]=index2&0xff;
+ Buffer[pointer+1]=(index2>>8)&0xff;
+ first_u = false;
+ //debug( "transmitting u length...\r\n" );
+ }
+ else{
+
+ Buffer[pointer]=*(temp2+pu) & 0x00ff;
+ Buffer[pointer+1]=(*(temp2+pu)>>8) & 0x00ff;
+ pu++;
+ //debug( "transmitting u data...\r\n" );
+ if(pu>= index2) {
+ flag_u=1;
+ //Buffer[pointer+2]='\t';
+ //pointer+=2;
+ break;
+ }
+ }
+ }
- led = !led;
- debug( "Retransmit packet....\r\n" );
- // pc.printf( "Retransmit packet....\r\n" );
- // Send the next frame
- State = TX;
- py=py_ant; pu=pu_ant; pv=pv_ant;//Si hay que reenviar el paquete se reestablecen los valores de punteros.
- }
+ else{
+ if(first_v == true) {
+ Buffer[pointer]=index3&0xff;
+ Buffer[pointer+1]=(index3>>8)&0xff;
+ first_v = false;
+ //debug( "transmitting v length...\r\n" );
+ }
+ else{
+ Buffer[pointer]=*(temp3+pv) & 0x00ff;
+ Buffer[pointer+1]=(*(temp3+pv)>>8) & 0x00ff;
+ pv++;
+ //debug( "transmitting v data ...\r\n" );
+ if(pv >= index3) {
+ flag_v=1;
+ //Buffer[pointer+2]='\n';//salto de línea es EOT
+ //pointer+=2;
+ break;
+ }
+ }
+ }
+
+
+ }
- else // valid reception but neither a message
+ //debug( "end of cycle..\r\n" );
+ int finish=0;
+ if(flag_y==1 && flag_u==1 && flag_v==1){
+ //Buffer[pointer]='\n';//salto de línea es EOT
+ flag_y=0;flag_u=0;flag_v=0;
+ //debug( "finished transmission ...\r\n" );
+ first_y=true;first_u=true;first_v=true;
+ finish=1;
+
+
+ }
+ else{
+ for( i = pointer; i < BufferSize; i++ )
+ {
+ Buffer[i] = i - 4;
+ }
+
+ }
+
+
+
+ wait_ms( 10 );
+ //debug( "Sending packet...\r\n" );
+ Radio.Send( Buffer, BufferSize );
+ if(finish==1) goto end;
+ }
+
+ else // valid reception but neither a PING or a PONG message
{ // Set device as master ans start again
- debug( "no message received...\r\n" );
- // pc.printf( "hola...\r\n" );
- isMaster = true;//this intruction is DANGEROUS!!!!!!
+ isMaster = true;
Radio.Rx( RX_TIMEOUT_VALUE );
}
}
@@ -231,85 +308,139 @@
{
if( BufferSize > 0 )
{
-
+ if( strncmp( ( const char* )Buffer, ( const char* )InitMsg, 4 ) == 0 )
+ {
led = !led;
- debug( "Reading... \r\n" );
- // pc.printf( "Reading... \r\n" );
+ // debug( "...Init received gfd\r\n" );
+ short int num=0;
+ num=0xff & Buffer[5];
+ num=num<<8;
+ num=num | (Buffer[4] & 0xff);
+ // debug( "py = %i\r\n",num );
+
+ py=num;
+
+ num=0;
+ num=0xff & Buffer[7];
+ num=num<<8;
+ num=num | (Buffer[6] & 0xff);
+ // debug( "pu = %i\r\n",num );
+ pu=num;
+ num=0;
+ num=0xff & Buffer[9];
+ num=num<<8;
+ num=num | (Buffer[8] & 0xff);
+ // debug( "pv = %i\r\n",num );
+
+ pv=num;
+ //py=py_ant;pu=pu_ant;pv=pv_ant;
+
+ if(pv<=0) {
+ flag_v=0;
+ first_v=true;
+ pv=0;
+ }
+ if(pu<=0) {
+ flag_u=0;
+ first_v=true;
+ pu=0;
+ }
+ if(py<=0) {
+ flag_y=0;
+ first_v=true;
+ py=0;
+ }
+
- int pointer=0;
- int length_y=0,length_v=0,length_u=0;
- for(pointer=0;pointer<254;pointer+=4){
+ // Send the reply to the PING string
+ strcpy( ( char* )Buffer, ( char* )AckMsg );
+ // We fill the buffer with numbers for the payload
+ for( i = 3; i < BufferSize; i++ )
+ {
+ Buffer[i] = i - 4;
+ }
+ wait_ms( 10 );
+ Radio.Send( Buffer, BufferSize );
+ }
+ else if( strncmp( ( const char* )Buffer, ( const char* )PaqMsg, 2 ) == 0 )
+ { // A master already exists then become a slave
+
+ // debug( "...Receiving data TX \r\n" );
+ led = !led;
+ int pointer=0;
+ py_ant=py;
+ pu_ant=pu;
+ pv_ant=pv;
+
+
+ for(pointer=2;pointer<BufferSize;pointer+=2){
if(flag_y==0) {//se comprueba si se ha cargado en el buffer de transmisión cada una de las componentes
if(first_y == true) {//EL PRIMER DATO ES LA LONGITUD
length_y=0xff & Buffer[pointer+1];
length_y=length_y<<8;
- length_y=length_y | Buffer[pointer];
+ length_y=length_y | (Buffer[pointer] & 0xff);
first_y = false;
- temp1=(short int *)malloc(sizeof(short int)*length_y);
- pointer-=2;//this is to avoid lose the first byte of the component
- //in the cycle 'pointer+=4' but in the first package of the component there´s no a pair [length,value]
-
+
+ acumulador[0]=length_y;
+ // debug("length_y = %i \r\n",length_y);
}
else{
- if(Buffer[pointer]!='\t'){//VERIFY the character is not EOC (end of component y u v)
+ //if(Buffer[pointer]!='\t'){//VERIFY the character is not EOC (end of component y u v)
short int num=0;
num=0xff & Buffer[pointer+1];
num=num<<8;
- num=num | Buffer[pointer];
- *(temp1+py2)=num;
- py2++;
-
- if (py2 > length_y) {flag_y=1;}
+ num=num | (Buffer[pointer] & 0xff);
+ *(temp1+py)=num;
+ py++;
- num=0xff & Buffer[pointer+3];
- num=num<<8;
- num=num | Buffer[pointer+2];
- *(temp1+py2)=num;
- py2++;
+ // debug("valor py = %i \r\n",py);
+ // debug("num = %i \r\n",num);
+ if (py >= length_y) {
+ flag_y=1;
+ //acumulador[0]=py;
+ // debug("valor py = %i \r\n",py);
+ break;
+ }
+
+
- if (py2 > length_y) {flag_y=1;}//if all bytes of the component are read, indicator is raised
+ //if all bytes of the component are read -> flag raised
//originally designed with goto.
- }
- else {
- flag_y=1;
- }
- }
+
+ }
}
-
+
else if(flag_u==0){
if(first_u == true) {
length_u=0xff & Buffer[pointer+1];
length_u=length_u<<8;
- length_u=length_u | Buffer[pointer];
+ length_u=length_u | (Buffer[pointer] & 0xff);
+ acumulador[1]=length_u;
first_u = false;
- temp2=(short int *)malloc(sizeof(short int)*length_u);
- pointer-=2;
+
+ // debug("length_u = %i \r\n",length_u);
}
else{
- if(Buffer[pointer]!='\t'){//VERIFY the character is not "end of component"
+
short int num=0;
num=0xff & Buffer[pointer+1];
num=num<<8;
- num=num | Buffer[pointer];
- *(temp2+pu2)=num;
- pu2++;
-
- if (pu2 > length_u) {flag_u=1;}
+ num=num | (Buffer[pointer] & 0xff);
+ *(temp2+pu)=num;
+ pu++;
+ // debug("valor pu = %i \r\n",pu);
+ // debug("num = %i \r\n",num);
+ if (pu >= length_u) {
+ flag_u=1;
+ //acumulador[1]=pu;
+ break;
+ }
- num=0xff & Buffer[pointer+3];
- num=num<<8;
- num=num | Buffer[pointer+2];
- *(temp2+pu2)=num;
- pu2++;
-
- if (pu2 > length_u) {flag_u=1;}
- }
- else {
- flag_u=1;
- }
+
+
}
}
@@ -317,245 +448,190 @@
if(first_v == true) {
length_v=0xff & Buffer[pointer+1];
length_v=length_v<<8;
- length_v=length_v | Buffer[pointer];
+ length_v=length_v | (Buffer[pointer] & 0xff);
+ acumulador[2]=length_v;
first_v = false;
- temp3=(short int *)malloc(sizeof(short int)*length_v);
- pointer-=2;
+
+ // debug("length_v = %i \r\n",length_v);
+
+
}
else{
- if(Buffer[pointer]!='\n'){//VERIFY the character is not EOT
+ //if(Buffer[pointer]!='\n'){//VERIFY the character is not EOT
short int num=0;
num=0xff & Buffer[pointer+1];
num=num<<8;
- num=num | Buffer[pointer];
- *(temp3+pv2)=num;
- py2++;
-
- if (pv2 > length_v) {flag_v=1;}
+ num=num | (Buffer[pointer] & 0xff);
+ *(temp3+pv)=num;
+ pv++;
+ // debug("valor pv = %i \r\n",pv);
+ // debug("num = %i \r\n",num);
+ if (pv >= length_v) {
+ flag_v=1;
+ //acumulador[2]=pv;
+ break;}
- num=0xff & Buffer[pointer+3];
- num=num<<8;
- num=num | Buffer[pointer+2];
- *(temp3+pv2)=num;
- pv2++;
-
- if (pv2 > length_v) {flag_v=1;}
- }
- else {
- flag_v=1;
- break;
- }
+
+
}
}
}
if(flag_y==1 && flag_u==1 && flag_v ==1){
+ py=0;pu=0;pv=0;
+ //py_ant=0;pu_ant=0;pv_ant=0;
+ //flag_y=0;flag_u=0;flag_v=0;
+ //first_y=true;first_u=true;first_v=true;
+
+ // debug( "Packet received (final de imagen)\r\n" );
+
+ State = LOWPOWER;
+ //goto end;
+ finish=1;
+
+
+ }
+
strcpy( ( char* )Buffer, ( char* )AckMsg );
// We fill the buffer with numbers for the payload
- for( i = 4; i < BufferSize; i++ )
+ for( i = 4; i < 32; i++ )
{
Buffer[i] = i - 4;
}
wait_ms( 10 );
+
+ // debug( "Packet received \r\n" );
+ Radio.Send( Buffer, BufferSize );
+ if(finish==1) {
+ py_ant=0;pu_ant=0;pv_ant=0;
+ flag_y=0;flag_u=0;flag_v=0;
+ first_y=true;first_u=true;first_v=true;
+ goto end;
+ }
+ }
+ else // valid reception but not a PAQ or init as expected (Request for send)
+ { // Set device as master and start again
+ //isMaster = true;
+
+ strcpy( ( char* )Buffer, ( char* )AckMsg );
+ // We fill the buffer with numbers for the payload
+ for( i = 4; i < 32; i++ )
+ {
+ Buffer[i] = i - 4;
+ }
+ wait_ms( 10 );
+
+ // debug( "RfS received \r\n" );
Radio.Send( Buffer, BufferSize );
- first_y=true;first_u=true;first_v=true;
+ }
+
- // debug( "Packet received \r\n" );
- // pc.printf( "Packet received \r\n" );
- State = LOWPOWER;
- goto end;
-
- }
-
- State=TX;
+
}
}
-
+ State = LOWPOWER;
break;
case TX:
led = !led;
if( isMaster == true )
{
- //debug( "transmission of packet (320x8)...\r\n" );
- //pc.printf( "transmission of packet (320x8)...\r\n" );
- int pointer=0;
-
- py_ant=py;pu_ant=pu;pv_ant=pv;
- for(pointer=0;pointer<254;pointer+=2){
-
- if(flag_y==0) {//se comprueba si se ha cargado en el buffer de transmisión cada una de las componentes
- if(first_y == true) {//en primer lugar se manda la longitud de la componente y u v despues del rlc
- Buffer[pointer]=index1&0xff;
- Buffer[pointer+1]=(index1>>8)&0xff;
- first_y = false;
- //debug( "transmitting y length...\r\n" );
- }
- else{
- Buffer[pointer]=*(temp1+py) & 0x00ff;
- Buffer[pointer+1]=(*(temp1+py)>>8) & 0x00ff;
- py++;
- // debug( "transmitting y data..\r\n" );
- if(py >= index1) {
- flag_y=1;
- Buffer[pointer+2]='\t';
- pointer+=2;
- }
- }
- }
- else if(flag_u==0){
- if(first_u == true) {
- Buffer[pointer]=index2&0xff;
- Buffer[pointer+1]=(index2>>8)&0xff;
- first_u = false;
- //debug( "transmitting u length...\r\n" );
- }
- else{
- Buffer[pointer]=*(temp2+pu) & 0x00ff;
- Buffer[pointer+1]=(*(temp2+pu)>>8) & 0x00ff;
- pu++;
- //debug( "transmitting u data...\r\n" );
- if(pu>= index2) {
- flag_u=1;
- Buffer[pointer+2]='\t';
- pointer+=2;
- }
- }
- }
-
- else{
- if(first_v == true) {
- Buffer[pointer]=index2&0xff;
- Buffer[pointer+1]=(index2>>8)&0xff;
- first_v = false;
- //debug( "transmitting v length...\r\n" );
- }
- else{
- Buffer[pointer]=*(temp3+pv) & 0x00ff;
- Buffer[pointer+1]=(*(temp3+pv)>>8) & 0x00ff;
- pv++;
- //debug( "transmitting v data ...\r\n" );
- if(pv >= index3) {
- flag_v=1;
- Buffer[pointer+2]='\n';//salto de línea es EOT
- pointer+=2;
- break;
- }
- }
- }
-
-
- }
-
- if(flag_y==1 && flag_u==1 && flag_v==1){
- Buffer[pointer]='\n';//salto de línea es EOT
- flag_y=0;flag_u=0;flag_v=0;
- //debug( "finished transmission ...\r\n" );
- first_y=true;first_u=true;first_v=true;
- goto end;
- for( i = Buffer[pointer]; i < BufferSize; i++ )
- {
- Buffer[i] = i - 4;
- }
- }
- else{
- for( i = Buffer[pointer]; i < BufferSize; i++ )
- {
- Buffer[i] = i - 4;
- }
- }
-
-
-
- wait_ms( 10 );
- //debug( "Sending packet...\r\n" );
- Radio.Send( Buffer, BufferSize );
-
- // pc.printf( "Sending packet...\r\n" );
+ //debug( "Iransmitting packet TX...\r\n" );
}
-
else
{
- //debug( "hola...\r\n" );
- //pc.printf( "hola...\r\n" );
- strcpy( ( char* )Buffer, ( char* )AckMsg );
+ // debug( "ACK RX...\r\n" );
+
+ }
+ Radio.Rx( RX_TIMEOUT_VALUE );
+ State = LOWPOWER;
+ break;
+ case RX_TIMEOUT:
+ if( isMaster == true )
+ {
+
+ strcpy( ( char* )Buffer, ( char* )InitMsg );
for( i = 4; i < BufferSize; i++ )
{
Buffer[i] = i - 4;
}
wait_ms( 10 );
Radio.Send( Buffer, BufferSize );
- Radio.Rx( RX_TIMEOUT_VALUE );
- }
-
- State = RX;
- break;
- case RX_TIMEOUT:
- if( isMaster == true )
- {
- //debug( "hola rx_timeout...\r\n" );
- //pc.printf( "hola...\r\n" );
- // Send the next PING frame
- strcpy( ( char* )Buffer, ( char* )RfSMsg );
- for( i = 4; i < BufferSize; i++ )
- {
- Buffer[i] = i - 4;
- }
- wait_ms( 10 );
- Radio.Send( Buffer, BufferSize );
+ //debug("start!\r\n");//empezamos aqui
}
else
{
- //debug( "hola...\r\n" );
- //pc.printf( "hola...\r\n" );
- strcpy( ( char* )Buffer, ( char* )RfSMsg );
+ // debug("RX_TIMEOUT... \r\n");
+ wait(3);
+ /*strcpy( ( char* )Buffer, ( char* )AckMsg );
for( i = 4; i < BufferSize; i++ )
{
Buffer[i] = i - 4;
}
wait_ms( 10 );
- Radio.Send( Buffer, BufferSize );
- Radio.Rx( RX_TIMEOUT_VALUE );
+ Radio.Send( Buffer, BufferSize ); */
+ Radio.Rx( RX_TIMEOUT_VALUE );
}
State = LOWPOWER;
break;
-
case RX_ERROR:
- // We have received a Packet with a CRC error, request packet again.
+ // We have received a Packet with a CRC error, send reply as if packet was correct
if( isMaster == true )
{
-
- //debug( "hola rx_error...\r\n" );
- //pc.printf( "hola...\r\n" );
- strcpy( ( char* )Buffer, ( char* )RfSMsg);
+ // Send the next PING frame
+ strcpy( ( char* )Buffer, ( char* )InitMsg );
for( i = 4; i < BufferSize; i++ )
{
Buffer[i] = i - 4;
}
-
wait_ms( 10 );
Radio.Send( Buffer, BufferSize );
- State = LOWPOWER;
}
else
{
- //debug( "hola ...\r\n" );
- //pc.printf( "hola...\r\n" );
- // Send the RfS again
- strcpy( ( char* )Buffer, ( char* )RfSMsg);
+ // Send the next PONG frame
+ // debug("CRC ERROR... \r\n");
+ //wait(3);
+
+
+ /*while(1){
+ led=!led;
+ wait(1);
+ }*/
+ const uint8_t RfSY[] = "RfSy";
+ const uint8_t RfSU[] = "RfSu";
+ const uint8_t RfSV[] = "RfSv";
+
+ if(py < acumulador[0]) {
+ // debug("sent RFSY message \r\n");
+ strcpy( ( char* )Buffer, ( char* )RfSY );
+
+
+ }
+ else if(pu < acumulador[1]) {
+ // debug("sent RFSu message \r\n");
+ strcpy( ( char* )Buffer, ( char* )RfSU );
+
+
+ }
+ else {
+ // debug("sent RFSV message \r\n");
+ strcpy( ( char* )Buffer, ( char* )RfSV );
+
+
+
+ }
for( i = 4; i < BufferSize; i++ )
{
Buffer[i] = i - 4;
}
- py=py_ant;pu=pu_ant;pv=pv_ant;
wait_ms( 10 );
Radio.Send( Buffer, BufferSize );
- State = LOWPOWER;
}
- //State = LOWPOWER;
+ State = LOWPOWER;
break;
case TX_TIMEOUT:
Radio.Rx( RX_TIMEOUT_VALUE );
@@ -571,18 +647,16 @@
end:
int a;
}
-
+
void OnTxDone( void )
{
- Radio.SetChannel( HoppingFrequencies[0] );
Radio.Sleep( );
State = TX;
debug_if( DEBUG_MESSAGE, "> OnTxDone\n\r" );
}
-
+
void OnRxDone( uint8_t *payload, uint16_t size, int16_t rssi, int8_t snr)
{
- Radio.SetChannel( HoppingFrequencies[0] );
Radio.Sleep( );
BufferSize = size;
memcpy( Buffer, payload, BufferSize );
@@ -591,34 +665,26 @@
State = RX;
debug_if( DEBUG_MESSAGE, "> OnRxDone\n\r" );
}
-
+
void OnTxTimeout( void )
{
- Radio.SetChannel( HoppingFrequencies[0] );
Radio.Sleep( );
State = TX_TIMEOUT;
- //debug_if( DEBUG_MESSAGE, "> OnTxTimeout\n\r" );
+ debug_if( DEBUG_MESSAGE, "> OnTxTimeout\n\r" );
}
-
+
void OnRxTimeout( void )
{
- Radio.SetChannel( HoppingFrequencies[0] );
Radio.Sleep( );
Buffer[ BufferSize ] = 0;
State = RX_TIMEOUT;
- //debug_if( DEBUG_MESSAGE, "> OnRxTimeout\n\r" );
+ debug_if( DEBUG_MESSAGE, "> OnRxTimeout\n\r" );
}
-
+
void OnRxError( void )
{
- Radio.SetChannel( HoppingFrequencies[0] );
Radio.Sleep( );
State = RX_ERROR;
debug_if( DEBUG_MESSAGE, "> OnRxError\n\r" );
}
-void OnFhssChangeChannel( uint8_t channelIndex )
-{
- Radio.SetChannel( HoppingFrequencies[channelIndex] );
- debug_if( DEBUG_MESSAGE, "F%d-", channelIndex);
-}
--- a/main.cpp Thu Sep 22 00:04:30 2016 +0000
+++ b/main.cpp Wed Jan 11 20:18:38 2017 +0000
@@ -1,3 +1,4 @@
+
/*
@@ -15,11 +16,12 @@
#include "mbed.h"
#include "functions_dec.h"
#include "lora.h"
+//#include "debug.h"
#define BPS 128000
#define BITS 8
#define STOP_BITS 1
-
+//DigitalOut myled(LED1);
int main(int argc, char *argv[]){
Serial pc(USBTX, USBRX);
@@ -27,50 +29,98 @@
pc.format (BITS,SerialBase::None, STOP_BITS) ;
int i=0,j=0,p_x=0,p_y=0,k=0;
-
+ //myled=1;
short int m[HEIGHT][WIDTH][3];
short int *matriz=(short int *)malloc(sizeof(short int)*WIDTH*HEIGHT*3);
-
+ short int index1,index2,index3;
short int acumulador[3]={0,0,0};
+int veces=0;
+
+for(veces=0; veces < 30;veces++){
short int *temp1,*temp2,*temp3;//these are vectors. Memory allocations are done at lora function.
- lora(temp1,acumulador[0],temp2,acumulador[1],temp3,acumulador[2]);//acumulador tells the length of the respective vector(acumulador[0] -> temp1,...)
+ temp3=(short int *)malloc(sizeof(short int)*380);
+ temp2=(short int *)malloc(sizeof(short int)*300);
+ temp1=(short int *)malloc(sizeof(short int)*300);
+//debug("lora\r\n");
+ lora(temp1,index1,temp2,index2,temp3,index3,acumulador);//acumulador tells the length of the respective vector(acumulador[0] -> temp1,...)
int indice=0;
-
+ // debug("paquete numero %i\r\n",veces+1);
//We must "unroll" the vectors after being processed with the RLC (in the encoder)
- for(i=0;i<acumulador[0]>>1;i++){
- for(j=k;j<*(temp1+indice)+k;j++){
- *(matriz+j*3)=*(temp1+indice+1);
+
+/* debug("return from lora function...\r\n");
+ debug("acumulador[0]= %i\r\n",acumulador[0]);
+ debug("acumulador[0]= %i\r\n",acumulador[1]);
+ debug("acumulador[0]= %i\r\n",acumulador[2]);
+ debug("Paquete numero %i\r\n",veces+1);*/
+ k=0;
+ short int acc1=0,acc2=0,acc3=0;
+ for(i=0;i<acumulador[0]/2;i++){//Se divide entre 2 poque se cuentan por pares (longitud,valor).
+ for(j=k;j<(*(temp1+indice)*3+k);j+=3){
+
+ *(matriz+j)=*(temp1+indice+1);
+ acc1++;
+ if(j>HEIGHT*WIDTH*3) break;
+ //debug("iteracion\r\n");
+ }
+ k=j;
+ indice+=2;
+
+ }
+ for(i=(acc1-1)*3;i<HEIGHT*WIDTH*3;i++){
+ *(matriz+i)=0;
+
+ }
+
+//debug("*(temp1+indice)= %i\r\n",*(temp1+0));
+ indice=0;
+ k=0;
+ for(i=0;i<acumulador[1]/2;i++){
+
+ for(j=k;j<(*(temp2+indice)*3+k);j+=3){
+
+ *(matriz+j+1)=*(temp2+indice+1);
+ acc2++;
+ if(j>HEIGHT*WIDTH*3) break;
}
k=j;
indice+=2;
}
+ for(i=(acc2-1)*3;i<HEIGHT*WIDTH*3;i++){
+ *(matriz+i+1)=0;
+ }
+
+//debug("*(temp2+indice)= %i\r\n",*(temp2+indice));
indice=0;
k=0;
- for(i=0;i<acumulador[1]>>1;i++){
- for(j=k;j<*(temp2+indice)+k;j++){
- *(matriz+j*3+1)=*(temp2+indice+1);
+ for(i=0;i<acumulador[2]/2;i++){
+ for(j=k;j<(*(temp3+indice)*3+k);j+=3){
+
+ *(matriz+j+2)=*(temp3+indice+1);
+ acc3++;
+ if(j>HEIGHT*WIDTH*3) break;
}
k=j;
indice+=2;
}
- indice=0;
- k=0;
- for(i=0;i<acumulador[2]>>1;i++){
- for(j=k;j<*(temp3+indice)+k;j++){
- *(matriz+j*3+2)=*(temp3+indice+1);
- }
- k=j;
- indice+=2;
+ for(i=(acc3-1)*3;i<HEIGHT*WIDTH*3;i++){
+ *(matriz+i+2)=0;
}
-
-
+
+
+ free(temp1);
+ free(temp2);
+ free(temp3);
+ //debug("zig-zag\r\n");
+
zig_zag_dec(m,matriz);
+ //debug("acumulador\r\n");
cuantizador_dec(m);
+
-
+ //debug("idct\r\n");
int matrix[8][8][3];
for(i=0;i<HEIGHT;i+=8){
for(j=0;j<WIDTH;j+=8){
@@ -97,7 +147,7 @@
int bpp=3;
- for(i=0;i<HEIGHT;i++){
+/* for(i=0;i<HEIGHT;i++){
for(j=0;j<WIDTH;j++){
if(m[i][j][0]>235) m[i][j][0]=235;
@@ -108,22 +158,131 @@
if(m[i][j][1]<16) m[i][j][1]=16;
if(m[i][j][2]<16) m[i][j][2]=16;
}
+ }*/
+//debug("yuv\r\n");
+ yuv_to_rgb(m);
+ unsigned char var;
+/* for(i=0;i<HEIGHT;i++){
+ for(j=0;j<WIDTH;j++){
+ while(!pc.writeable());
+ pc.printf("%c",(char)m[i][j][0]);
}
-
- yuv_to_rgb(m);
+}*/
for(i=0;i<8;i++){
for(j=0;j<320;j++){
+
+ var=0xff & m[i][j][0];
+ if(j>311){
+ while(!pc.writeable());
+ pc.printf("%c",(char)m[i][j-8][0]);
- while(!pc.writeable());
- pc.printf("%u",(unsigned char)m[i][j][0]);
-
- while(!pc.writeable());
- pc.printf("%u",(unsigned char)m[i][j][1]);
- while(!pc.writeable());
- pc.printf("%u",(unsigned char)m[i][j][2]);
+
+ while(!pc.writeable());
+ pc.printf("%c",(char)m[i][j-8][1]);
+
+
+ while(!pc.writeable());
+ pc.printf("%c",(char)m[i][j-8][2]);
+ }
+ else{
+ while(!pc.writeable());
+ pc.printf("%c",(char)m[i][j][0]);
+
+
+ while(!pc.writeable());
+ pc.printf("%c",(char)m[i][j][1]);
+
+
+ while(!pc.writeable());
+ pc.printf("%c",(char)m[i][j][2]);
+ }
+
+ //var=255;
+
}
}
+
+ while(!pc.writeable());
+ pc.printf("2");//OJO con ponerlo aqui arriba
+
+
+ char h;
+ h=acc1&0xff;
+
+ while(!pc.writeable());
+ pc.printf("%c",h);
+
+ h=(acc1>>8) & 0xff;
+
+ while(!pc.writeable());
+ pc.printf("%c",h);
+
+
+
+ h=acc2&0xff;
+
+ while(!pc.writeable());
+ pc.printf("%c",h);
+
+ h=(acc2>>8)&0xff;
+
+ while(!pc.writeable());
+ pc.printf("%c",h);
+
+
+ h=acc3&0xff;
+
+ while(!pc.writeable());
+ pc.printf("%c",h);
+
+ h=(acc3>>8)&0xff;
+
+ while(!pc.writeable());
+ pc.printf("%c",h);
+ /* char h;
+ h=acumulador[0]&0xff;
+
+ while(!pc.writeable());
+ pc.printf("%c",h);
+
+ h=(acumulador[0]>>8) & 0xff;
+
+ while(!pc.writeable());
+ pc.printf("%c",h);
+
+
+
+ h=acumulador[1]&0xff;
+
+ while(!pc.writeable());
+ pc.printf("%c",h);
+
+ h=(acumulador[1]>>8)&0xff;
+
+ while(!pc.writeable());
+ pc.printf("%c",h);
+
+
+ h=acumulador[2]&0xff;
+
+ while(!pc.writeable());
+ pc.printf("%c",h);
+
+ h=(acumulador[2]>>8)&0xff;
+
+ while(!pc.writeable());
+ pc.printf("%c",h);*/
+}
+
+ DigitalOut led(LED1);
+ while(1){
+
+ led=1;
+ wait(0.5);
+ led=0;
+ wait(0.5);
+ }
return 0;
}