Alyson Castiblanco
/
NEW_TETRIS
Version 2 tetris
Fork of Nucleo_pwm3 by
Diff: tetris.cpp
- Revision:
- 1:b8818726b16f
diff -r 2b55edb1057b -r b8818726b16f tetris.cpp --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/tetris.cpp Sun Oct 21 00:28:09 2018 +0000 @@ -0,0 +1,224 @@ +#include "mbed.h" +#include "figs.h" + +SPI deviceM(PB_15, PB_14, PB_13); +DigitalOut ssel (PB_12); +Serial device(USBTX,USBRX); +#define VEL 80 +uint8_t matrix_act[11]={0,0,0,0,0,0,0,0,0,0,0}; +uint8_t matrix_tmp[8]={0,0,0,0,0,0,0,0}; +uint8_t matrix_tmp1[8]={0,0,0,0,0,0,0,0}; +uint8_t fila=0,i=0, cont=0, ncolumna=1, grados=0, output1=0; + + +void Rx_interrupt() { + output1=!output1; + char d = device.getc(); //obtiene lo que hay en el puerto serial + + device.printf("irq %c\n",d);//hace el cambio en el led + void correr_fig(); + return; +} + +void sendSPI(uint8_t d1, uint8_t d2) +{ + deviceM.unlock(); + ssel=0; + deviceM.write(d1); + deviceM.write(d2); + ssel=1; + deviceM.lock(); +} + +void init_display() +{ +sendSPI(0x0c,1); + sendSPI(0x0b,7); + sendSPI(0x09,0); + sendSPI(0x0A,0x0E); + int j; + for (j=0;j<4;j++){ + sendSPI(0x0F,1); + wait (0.2); + sendSPI(0x0f,0); + wait (0.2); + } +} + +void copy_matrix(uint8_t a,uint8_t b,uint8_t c,uint8_t* fig,uint8_t columna) +{ + matrix_tmp[0]= *(fig+5)>>columna-1; + matrix_tmp[1]= *(fig+a)>>columna-1; + matrix_tmp[2]= *(fig+b)>>columna-1; + matrix_tmp[3]= *(fig+c)>>columna-1; +} + +void clean_mat() +{ + int j; + for(j=0;j<=8;j++) + { + sendSPI(0x0+j,0x00); + } +}; + +void buscar_fil(){ + for (uint8_t j=0;j<9;j++){ + if((matrix_act[j]& matrix_tmp[3])==0){ + fila=j; + } + if((matrix_act[j]& matrix_tmp[3])!=0){ + fila=j-1; + j=9; + } + if((matrix_act[j]& matrix_tmp[2])!=0){ + fila=j; + j=9; + } + if((matrix_act[j]& matrix_tmp[1])!=0){ + fila=j+1; + j=9; + } + } + if(fila>8) + fila=8; + +}; + +void guardar_mat(){ + matrix_act[fila-3]=matrix_tmp1[0]; + matrix_act[fila-2]=matrix_tmp1[1]; + matrix_act[fila-1]=matrix_tmp1[2]; + matrix_act[fila]=matrix_tmp1[3]; + }; + + +void imp_mat(uint8_t *temp){ + buscar_fil(); + for (int j=0;j<=fila;j++){ + matrix_tmp1[0]=(matrix_tmp[0]+ matrix_act[j-3]); + matrix_tmp1[1]=(matrix_tmp[1]+ matrix_act[j-2]); + matrix_tmp1[2]=(matrix_tmp[2]+ matrix_act[j-1]); + matrix_tmp1[3]=(matrix_tmp[3]+ matrix_act[j]); + sendSPI(j-3,matrix_tmp1[0]); + sendSPI(j-2,matrix_tmp1[1]); + sendSPI(j-1,matrix_tmp1[2]); + sendSPI(j ,matrix_tmp1[3]); + wait_ms(VEL); + } +} +void correr_fig(){ + + uint8_t correr=device.getc(); + + if(correr==30) + correr=1; + + if(correr==29) + correr=2; + + if(correr==28) + correr=3; + + if(correr==31) + correr=0; + + switch (correr){ + /* + case 0: + cont++; + if(cont>8)cont=8; + break;*/ + + case 1: + if( (matrix_tmp[1]==2) || (matrix_tmp[1]==1)|| (matrix_tmp[1]==3)) + ncolumna--; + grados++; + if(grados>4) + grados=1; + break; + + case 2: + if((matrix_tmp[2]==7 || matrix_tmp[3]==7)||(matrix_tmp[2]==3 && matrix_tmp[3]==6)) { + device.printf("a"); + ncolumna=6; + } + else if((matrix_tmp[1]==2 && matrix_tmp[2]==2 && matrix_tmp[3]==2)){ + device.printf("b"); + ncolumna=8; + } + else if (ncolumna<7){ + device.printf("c"); + ncolumna++; + } + break; + + case 3: + ncolumna--; + if(ncolumna<1) + ncolumna=1; + break; + } + + } + + +void new_fig(char type_fig,char grados,char columna) +{ + switch (type_fig){ + case 1: if(columna>7) + columna=7; + copy_matrix(5,1,1,PLANT,columna); break; + + case 2: if(grados==1 || grados==3) + copy_matrix(0,0,0,PLANT,columna); + if(grados==2 || grados==4) + copy_matrix(5,5,2,PLANT,columna); + break; + + case 3: if(grados==1) + copy_matrix(0,0,1,PLANT,columna); + if(grados==2) + copy_matrix(5,2,0,PLANT,columna); + if(grados==3) + copy_matrix(1,3,3,PLANT,columna); + if(grados==4) + copy_matrix(5,6,2,PLANT,columna); + break; + + case 4: if(grados==1) + copy_matrix(5,3,2,PLANT,columna); + if(grados==2) + copy_matrix(0,1,0,PLANT,columna); + if(grados==3) + copy_matrix(5,2,3,PLANT,columna); + if(grados==4) + copy_matrix(3,1,3,PLANT,columna); + break; + + case 5: if(grados==1 || grados==3) + copy_matrix(5,4,1,PLANT,columna); + if(grados==2 || grados==4) + copy_matrix(0,1,3,PLANT,columna); + break; + } +} + +int main() { + char tipo_fig=1,ncolumna=1,grados=1,lee1=0,lee2=0; + init_display(); + clean_mat(); + while(1){ + lee1=device.getc(); + tipo_fig=device.getc(); + grados=device.getc(); + ncolumna=device.getc(); + lee2=device.getc(); + if(lee1==0x3c && lee2==0x3e) + { + new_fig(tipo_fig,grados,ncolumna); + imp_mat(matrix_tmp); + guardar_mat(); + } + } + } \ No newline at end of file