Yosef Guevara Salamanca
/
TETS_PC
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tetris_pc.cpp@10:d4d4b9e9ed92, 2018-09-13 (annotated)
- Committer:
- djinn77
- Date:
- Thu Sep 13 07:49:55 2018 +0000
- Revision:
- 10:d4d4b9e9ed92
- Parent:
- tets_pc.cpp@9:0cf4c5f7a1d8
- Child:
- 11:2dc0f84c600a
Para entregar;
Who changed what in which revision?
User | Revision | Line number | New contents of line |
---|---|---|---|
djinn77 | 0:4b2603e81763 | 1 | #include "mbed.h" |
djinn77 | 1:d99b6299bad8 | 2 | #include "piezas.h" |
djinn77 | 1:d99b6299bad8 | 3 | //#define DEBUG 1 |
djinn77 | 0:4b2603e81763 | 4 | |
djinn77 | 7:5677ded8ff2a | 5 | Serial pc(USBTX,USBRX); |
djinn77 | 7:5677ded8ff2a | 6 | SPI deviceM(PB_15, PB_14, PB_13); //SE DEFINE EL LED QUE ACTIVARA EL DISPOSITIVO |
djinn77 | 0:4b2603e81763 | 7 | DigitalOut ssel (PB_12); |
djinn77 | 0:4b2603e81763 | 8 | |
djinn77 | 3:b77f80e91118 | 9 | int memoria[8]={0}; |
djinn77 | 0:4b2603e81763 | 10 | |
djinn77 | 0:4b2603e81763 | 11 | void debuging(char*s,...){ |
djinn77 | 0:4b2603e81763 | 12 | |
djinn77 | 0:4b2603e81763 | 13 | #if DEBUG |
djinn77 | 0:4b2603e81763 | 14 | pc.printf(s); |
djinn77 | 0:4b2603e81763 | 15 | #endif |
djinn77 | 0:4b2603e81763 | 16 | |
djinn77 | 0:4b2603e81763 | 17 | } |
djinn77 | 0:4b2603e81763 | 18 | |
djinn77 | 7:5677ded8ff2a | 19 | // FUNCION EL CUAL ENVIA EL DATO JUNTO CON LA DIRECCION DE LA COLUMNA CORRESPONDIENTE AL PRIMER DISPOSITIVO |
djinn77 | 0:4b2603e81763 | 20 | void sendSPI(uint8_t d1, uint8_t d2) |
djinn77 | 0:4b2603e81763 | 21 | { |
djinn77 | 0:4b2603e81763 | 22 | deviceM.unlock(); |
djinn77 | 7:5677ded8ff2a | 23 | ssel=0; // SELECCIONA EL PRIMER DISPOSOTIVO |
djinn77 | 7:5677ded8ff2a | 24 | deviceM.write(d1); // ESCRIBE EL ADDRESS |
djinn77 | 7:5677ded8ff2a | 25 | deviceM.write(d2); // ESCRIBE EL DATA |
djinn77 | 0:4b2603e81763 | 26 | ssel=1; |
djinn77 | 0:4b2603e81763 | 27 | deviceM.lock(); |
djinn77 | 0:4b2603e81763 | 28 | }; |
djinn77 | 1:d99b6299bad8 | 29 | |
djinn77 | 7:5677ded8ff2a | 30 | // Toma el vecor reorganizado , lo imprime y lo almacena |
djinn77 | 1:d99b6299bad8 | 31 | void captura_matriz(uint16_t* imprimir){ |
djinn77 | 7:5677ded8ff2a | 32 | int i=0; // inicia el contador i en 0 |
djinn77 | 6:c80ec2cdfb9e | 33 | |
djinn77 | 7:5677ded8ff2a | 34 | while(i <8){ //se encarga de desplazar los bits dentro del vector |
djinn77 | 7:5677ded8ff2a | 35 | int j=1; // inicia el contador j en 1 |
djinn77 | 7:5677ded8ff2a | 36 | |
djinn77 | 7:5677ded8ff2a | 37 | while(j<=8){ //se encarga de seleccionar que posicion del vector imprimira |
djinn77 | 7:5677ded8ff2a | 38 | |
djinn77 | 7:5677ded8ff2a | 39 | sendSPI(j, memoria[j-1]|(imprimir[j-1]>>i)); //Imprime el resultado de aplicar OR a la memoria y al desplamamiento de imprimir |
djinn77 | 5:106def451c41 | 40 | |
djinn77 | 9:0cf4c5f7a1d8 | 41 | |
djinn77 | 10:d4d4b9e9ed92 | 42 | if(i==7|| (memoria[j-1]&(imprimir[j-1]>>i+1))!=0){ //Detiene el desplazamiento cuando los bits tocan fondo //AQUI esta el error |
djinn77 | 6:c80ec2cdfb9e | 43 | |
djinn77 | 8:e5a5b39dd8e8 | 44 | memoria[j-1]= memoria[j-1]|(imprimir[j-1]>>i); //Almacena el nuevo valor de la operacion OR en la memoria |
djinn77 | 6:c80ec2cdfb9e | 45 | |
djinn77 | 6:c80ec2cdfb9e | 46 | } |
djinn77 | 6:c80ec2cdfb9e | 47 | j++; |
djinn77 | 6:c80ec2cdfb9e | 48 | } |
djinn77 | 7:5677ded8ff2a | 49 | wait(1.0); // espera para tomar el otro valor de lectura |
djinn77 | 4:1d1a3b0021d5 | 50 | i++; |
djinn77 | 4:1d1a3b0021d5 | 51 | } |
djinn77 | 7:5677ded8ff2a | 52 | |
djinn77 | 1:d99b6299bad8 | 53 | } |
djinn77 | 1:d99b6299bad8 | 54 | |
djinn77 | 1:d99b6299bad8 | 55 | |
djinn77 | 7:5677ded8ff2a | 56 | void desplazar(uint16_t* datos, char des){ // tomar la figura y la desplaza segun la posicion ingresada inicialmente |
djinn77 | 1:d99b6299bad8 | 57 | |
djinn77 | 7:5677ded8ff2a | 58 | uint16_t desplazamiento[8]={0}; // Inicia un vector auxiliar con solo Ceros |
djinn77 | 1:d99b6299bad8 | 59 | int j= 0; |
djinn77 | 1:d99b6299bad8 | 60 | |
djinn77 | 7:5677ded8ff2a | 61 | for(int i=des; i<(des+3);i++){ // Inicia un vector auxiliar con solo Ceros |
djinn77 | 7:5677ded8ff2a | 62 | desplazamiento[i]=datos[j]; // Alamcena los nuevos datos tomados en el vector |
djinn77 | 1:d99b6299bad8 | 63 | j++; |
djinn77 | 1:d99b6299bad8 | 64 | } |
djinn77 | 7:5677ded8ff2a | 65 | captura_matriz(desplazamiento); //Envia el Vector desplazado la funcion de captura de matriz |
djinn77 | 1:d99b6299bad8 | 66 | } |
djinn77 | 1:d99b6299bad8 | 67 | |
djinn77 | 10:d4d4b9e9ed92 | 68 | void read(char pos, char figura, char giro){ |
djinn77 | 10:d4d4b9e9ed92 | 69 | |
djinn77 | 7:5677ded8ff2a | 70 | switch(figura){ //Este switch escoje la figura con que trabajaar |
djinn77 | 1:d99b6299bad8 | 71 | case 0: // L |
djinn77 | 7:5677ded8ff2a | 72 | switch(giro){ //Este switch rota la figura a trabajar |
djinn77 | 1:d99b6299bad8 | 73 | case 0: |
djinn77 | 7:5677ded8ff2a | 74 | desplazar(PZA_LD,pos); //LLAMA A LA FUNCION DESPLAZAMIENTO Y PONE LA POSICION |
djinn77 | 1:d99b6299bad8 | 75 | case 1: |
djinn77 | 2:f9d289ee6b30 | 76 | desplazar(PZA_LDN,pos); |
djinn77 | 1:d99b6299bad8 | 77 | |
djinn77 | 1:d99b6299bad8 | 78 | break; |
djinn77 | 1:d99b6299bad8 | 79 | case 2: |
djinn77 | 2:f9d289ee6b30 | 80 | desplazar(PZA_LDO,pos); |
djinn77 | 1:d99b6299bad8 | 81 | |
djinn77 | 1:d99b6299bad8 | 82 | break; |
djinn77 | 1:d99b6299bad8 | 83 | case 3: |
djinn77 | 2:f9d289ee6b30 | 84 | desplazar(PZA_LDD, pos); |
djinn77 | 1:d99b6299bad8 | 85 | |
djinn77 | 1:d99b6299bad8 | 86 | break; |
djinn77 | 0:4b2603e81763 | 87 | } |
djinn77 | 0:4b2603e81763 | 88 | break; |
djinn77 | 2:f9d289ee6b30 | 89 | case 1://T |
djinn77 | 2:f9d289ee6b30 | 90 | switch(giro){ |
djinn77 | 2:f9d289ee6b30 | 91 | case 0: |
djinn77 | 2:f9d289ee6b30 | 92 | desplazar(PZA_T, pos); |
djinn77 | 2:f9d289ee6b30 | 93 | break; |
djinn77 | 2:f9d289ee6b30 | 94 | case 1: |
djinn77 | 2:f9d289ee6b30 | 95 | desplazar(PZA_TN, pos); |
djinn77 | 2:f9d289ee6b30 | 96 | break; |
djinn77 | 2:f9d289ee6b30 | 97 | case 2: |
djinn77 | 2:f9d289ee6b30 | 98 | desplazar(PZA_TO, pos); |
djinn77 | 2:f9d289ee6b30 | 99 | break; |
djinn77 | 2:f9d289ee6b30 | 100 | case 3: |
djinn77 | 2:f9d289ee6b30 | 101 | desplazar(PZA_TD, pos); |
djinn77 | 2:f9d289ee6b30 | 102 | break; |
djinn77 | 0:4b2603e81763 | 103 | } |
djinn77 | 0:4b2603e81763 | 104 | |
djinn77 | 0:4b2603e81763 | 105 | break; |
djinn77 | 2:f9d289ee6b30 | 106 | case 2://I |
djinn77 | 2:f9d289ee6b30 | 107 | switch(giro){ |
djinn77 | 2:f9d289ee6b30 | 108 | case 0: case 2: |
djinn77 | 2:f9d289ee6b30 | 109 | desplazar(PZA_I, pos); |
djinn77 | 2:f9d289ee6b30 | 110 | break; |
djinn77 | 2:f9d289ee6b30 | 111 | case 1: case 3: |
djinn77 | 2:f9d289ee6b30 | 112 | desplazar(PZA_IR, pos); |
djinn77 | 2:f9d289ee6b30 | 113 | break; |
djinn77 | 0:4b2603e81763 | 114 | } |
djinn77 | 0:4b2603e81763 | 115 | break; |
djinn77 | 2:f9d289ee6b30 | 116 | case 3://Cuadrado |
djinn77 | 2:f9d289ee6b30 | 117 | switch(giro){ |
djinn77 | 2:f9d289ee6b30 | 118 | case 1: case 2: case 3: case 4: |
djinn77 | 2:f9d289ee6b30 | 119 | desplazar(PZA_C,pos); |
djinn77 | 2:f9d289ee6b30 | 120 | break; |
djinn77 | 0:4b2603e81763 | 121 | } |
djinn77 | 2:f9d289ee6b30 | 122 | break; |
djinn77 | 2:f9d289ee6b30 | 123 | case 5: //Z |
djinn77 | 2:f9d289ee6b30 | 124 | switch(giro){ |
djinn77 | 2:f9d289ee6b30 | 125 | case 0: |
djinn77 | 2:f9d289ee6b30 | 126 | desplazar(PZA_Z,pos); |
djinn77 | 2:f9d289ee6b30 | 127 | break; |
djinn77 | 2:f9d289ee6b30 | 128 | case 1: |
djinn77 | 2:f9d289ee6b30 | 129 | desplazar(PZA_ZN,pos); |
djinn77 | 2:f9d289ee6b30 | 130 | break; |
djinn77 | 2:f9d289ee6b30 | 131 | case 2: |
djinn77 | 2:f9d289ee6b30 | 132 | desplazar(PZA_ZO,pos); |
djinn77 | 2:f9d289ee6b30 | 133 | break; |
djinn77 | 2:f9d289ee6b30 | 134 | case 3: |
djinn77 | 2:f9d289ee6b30 | 135 | desplazar(PZA_ZD, pos); |
djinn77 | 2:f9d289ee6b30 | 136 | break; |
djinn77 | 2:f9d289ee6b30 | 137 | } |
djinn77 | 0:4b2603e81763 | 138 | |
djinn77 | 0:4b2603e81763 | 139 | break; |
djinn77 | 2:f9d289ee6b30 | 140 | |
djinn77 | 0:4b2603e81763 | 141 | } |
djinn77 | 0:4b2603e81763 | 142 | } |
djinn77 | 10:d4d4b9e9ed92 | 143 | |
djinn77 | 10:d4d4b9e9ed92 | 144 | void captura_datos(){ |
djinn77 | 10:d4d4b9e9ed92 | 145 | |
djinn77 | 10:d4d4b9e9ed92 | 146 | pc.baud(38400); //Inicializa la velocidad de comunicacion |
djinn77 | 10:d4d4b9e9ed92 | 147 | |
djinn77 | 10:d4d4b9e9ed92 | 148 | char pos= 0; |
djinn77 | 10:d4d4b9e9ed92 | 149 | char figura= 0; |
djinn77 | 10:d4d4b9e9ed92 | 150 | char giro= 0; |
djinn77 | 10:d4d4b9e9ed92 | 151 | |
djinn77 | 10:d4d4b9e9ed92 | 152 | debuging("\n Ingrese el posicion. "); |
djinn77 | 10:d4d4b9e9ed92 | 153 | pos=pc.getc(); |
djinn77 | 10:d4d4b9e9ed92 | 154 | debuging("\n Seleccione la Figura. "); |
djinn77 | 10:d4d4b9e9ed92 | 155 | figura=pc.getc(); |
djinn77 | 10:d4d4b9e9ed92 | 156 | debuging("\n Seleccione la rotacion. "); |
djinn77 | 10:d4d4b9e9ed92 | 157 | giro=pc.getc(); |
djinn77 | 10:d4d4b9e9ed92 | 158 | |
djinn77 | 10:d4d4b9e9ed92 | 159 | read(pos,figura,giro); |
djinn77 | 10:d4d4b9e9ed92 | 160 | |
djinn77 | 10:d4d4b9e9ed92 | 161 | } |
djinn77 | 10:d4d4b9e9ed92 | 162 | |
djinn77 | 7:5677ded8ff2a | 163 | void inicializar(){ //INICIALIZA LA MATRIZ |
djinn77 | 0:4b2603e81763 | 164 | |
djinn77 | 7:5677ded8ff2a | 165 | sendSPI(0x0c,1); |
djinn77 | 0:4b2603e81763 | 166 | sendSPI(0x0b,7); |
djinn77 | 7:5677ded8ff2a | 167 | sendSPI(0x09,0); //SELECCIONA LA LUMINOSIDAD DE LA MATRIZ |
djinn77 | 7:5677ded8ff2a | 168 | sendSPI(0x0A,0x0f); //SELECCIONA LA LUMINOSIDAD DE LA MATRIZ |
djinn77 | 0:4b2603e81763 | 169 | int i; |
djinn77 | 0:4b2603e81763 | 170 | for (i=0;i<2;i++){ |
djinn77 | 0:4b2603e81763 | 171 | sendSPI(0x0F,1); |
djinn77 | 0:4b2603e81763 | 172 | wait (0.5); |
djinn77 | 0:4b2603e81763 | 173 | sendSPI(0x0f,0); |
djinn77 | 0:4b2603e81763 | 174 | wait (0.5); |
djinn77 | 0:4b2603e81763 | 175 | } |
djinn77 | 0:4b2603e81763 | 176 | |
djinn77 | 5:106def451c41 | 177 | for (int j= 1; j<=8;j++){ // limpia la pantalla al encenderce o reiniarcea asi |
djinn77 | 5:106def451c41 | 178 | //no quedan leds encendidos cuando se ejecute el programa nuevamente |
djinn77 | 5:106def451c41 | 179 | |
djinn77 | 7:5677ded8ff2a | 180 | sendSPI(j, 0x00); //pone cada columna y vecto en blanco al inicializar |
djinn77 | 5:106def451c41 | 181 | } |
djinn77 | 0:4b2603e81763 | 182 | } |
djinn77 | 0:4b2603e81763 | 183 | |
djinn77 | 0:4b2603e81763 | 184 | |
djinn77 | 0:4b2603e81763 | 185 | int main() { |
djinn77 | 7:5677ded8ff2a | 186 | inicializar(); // Inicializa el programa para establecer los modos de trabajo liminosidad |
djinn77 | 0:4b2603e81763 | 187 | while(1){ |
djinn77 | 10:d4d4b9e9ed92 | 188 | captura_datos(); // Inicia la lectura de la informacion |
djinn77 | 0:4b2603e81763 | 189 | } |
djinn77 | 7:5677ded8ff2a | 190 | |
djinn77 | 0:4b2603e81763 | 191 | } |