Beispiel #1
0
int main(int argc, const char* argv[])
{
  padInfo padinfo;
  padData paddata;
  s32 status;
  u32 joinstatus;

  displayData vdat;
  char filename[64];
  int picturecount = 0;

  atexit(appCleanup);
  sysUtilRegisterCallback(SYSUTIL_EVENT_SLOT0, eventHandle, NULL);

  init_screen(&vdat);
  printf("screen res: %dx%d buffers: %p %p\n",
       vdat.res.width, vdat.res.height, vdat.buffer[0], vdat.buffer[1]);
  ioPadInit(7);

  sysSpuImage image;
  u32 group_id;
  sysSpuThreadAttribute attr = { ptr2ea("mythread"), 8+1, SPU_THREAD_ATTR_NONE };
  sysSpuThreadGroupAttribute grpattr = { 7+1, ptr2ea("mygroup"), 0, 0 };
  sysSpuThreadArgument arg[6];
  u32 cause;
  int i, j;
  volatile spustr_t *spu = memalign(16, 6*sizeof(spustr_t));

  printf("Initializing 6 SPUs... ");
  status = sysSpuInitialize(6, 0);
  printf("%08x\n", status);

  printf("Loading ELF image... ");
  status = sysSpuImageImport(&image, spu_bin, 0);
  printf("%08x\n", status);

  printf("Creating thread group... ");
  status = sysSpuThreadGroupCreate(&group_id, 6, 100, &grpattr);
  printf("%08x\n", status);
  printf("group id = %d\n", group_id);

  /* create 6 spu threads */
  for (i = 0; i < 6; i++) {
    /* Populate the data structure for the SPU */
    spu[i].rank = i;
    spu[i].count = 6;
    spu[i].sync = 0;
    spu[i].width = vdat.res.width;
    spu[i].height = vdat.res.height;
    spu[i].zoom = 1.0f;
    spu[i].xc = -0.5f;
    spu[i].yc = 0.f;

    /* The first argument of the main function for the SPU program is the
     * address of its dedicated structure, so it can fetch its contents via DMA
     */
    arg[i].arg0 = ptr2ea(&spu[i]);

    printf("Creating SPU thread... ");
    status = sysSpuThreadInitialize((u32*)&spu[i].id, group_id, i, &image, &attr, &arg[i]);
    printf("%08x\n", status);
    printf("thread id = %d\n", spu[i].id);

    printf("Configuring SPU... %08x\n",
    sysSpuThreadSetConfiguration(spu[i].id, SPU_SIGNAL1_OVERWRITE|SPU_SIGNAL2_OVERWRITE));
  }

  printf("Starting SPU thread group... ");
  status = sysSpuThreadGroupStart(group_id);
  printf("%08x\n", status);

  /* Now all the SPU threads have been started. For the moment they are blocked
   * waiting for a value in their signal notification register 1 (the
   * spu_read_signal1() call in SPU program).
   */

  int quit = 0;
  uint32_t scr_ea;

  while (!quit) {
    /* Check the pads. */
    ioPadGetInfo(&padinfo);
    for (i=0; i<MAX_PADS; i++) {
      if (padinfo.status[i]) {
        ioPadGetData(i, &paddata);
        if (paddata.BTN_CROSS)
          quit = 1;
        int ah = center0(paddata.ANA_L_H);
        int av = center0(paddata.ANA_L_V);
        int az = center0(paddata.ANA_R_V);
        for (j = 0; j < 6; j++) {
          spu[j].xc += ah*0.001f*spu[j].zoom;
          spu[j].yc += av*0.001f*spu[j].zoom;
          spu[j].zoom *= (1.f + az*0.0005f);
          if (spu[j].zoom < 0.0001)
            spu[j].zoom = 0.0001;
        }
        if (paddata.BTN_SQUARE) {
          sprintf(filename, "/dev_usb/mandel%04d.bmp", ++picturecount);
          export_bmp(filename, vdat.buffer[vdat.curr_fb], vdat.res.width, vdat.res.height);
        }
        if (paddata.BTN_START) {
          for (j = 0; j < 6; j++) {
            spu[j].xc = -.5f;
            spu[j].yc = 0.f;
            spu[j].zoom = 1.f;
          }
        }
      }
    }

    waitFlip(); /* Wait for the last flip to finish, so we can draw to the old buffer */
#if 0
    /* test code */
    int x, y;
    u32 *p=vdat.buffer[vdat.curr_fb];
    u32 c = 0x01010101 * (vdat.framecnt&0xff);
    for (y=0; y<1080; ++y) {
      for (x=0; x<1920; ++x) {
        *p++ = c;
      }
    }
#endif
    scr_ea = ptr2ea(vdat.buffer[vdat.curr_fb]);
    for (i = 0; i < 6; i++) {
      spu[i].sync = 0;
      status = sysSpuThreadWriteSignal(spu[i].id, 0, scr_ea);
      assert(status == 0);
    }
    for (i = 0; i < 6; i++) {
      while (spu[i].sync == 0);
    }
    flip(&vdat); /* Flip buffer onto screen */
    sysUtilCheckCallback();
  }

  for (i = 0; i < 6; i++) {
    status = sysSpuThreadWriteSignal(spu[i].id, 0, 0);
    assert(status == 0);
  }

  printf("Joining SPU thread group... ");
  status = sysSpuThreadGroupJoin(group_id, &cause, &joinstatus);
  printf("%08x\n", status);
  printf("cause=%d status=%d\n", cause, joinstatus);

  printf("Closing image... %08x\n", sysSpuImageClose(&image));
  free((void*)spu);

  return 0;
}
Beispiel #2
0
int main(int argc,char *argv[])
{
	u32 *array;
	u32 group_id;
	spustr_t *spu;
	sysSpuImage image;
	u32 cause,status,i;
	sysSpuThreadArgument arg[6];
	sysSpuThreadGroupAttribute grpattr = { 7+1, ptr2ea("mygroup"), 0, 0 };
	sysSpuThreadAttribute attr = { ptr2ea("mythread"), 8+1, SPU_THREAD_ATTR_NONE };

	printf("spuchain starting....\n");

	sysSpuInitialize(6,0);
	sysSpuImageImport(&image,spu_bin,0);
	sysSpuThreadGroupCreate(&group_id,6,100,&grpattr);

	spu = (spustr_t*)memalign(128,6*sizeof(spustr_t));
	array = (u32*)memalign(128,4*sizeof(u32));

	for(i=0;i<6;i++) {
		spu[i].rank = i;
		spu[i].count = 6;
		spu[i].sync = 0;
		spu[i].array_ea = ptr2ea(array);
		arg[i].arg0 = ptr2ea(&spu[i]);

		printf("Creating SPU thread... ");
		sysSpuThreadInitialize(&spu[i].id,group_id,i,&image,&attr,&arg[i]);
		printf("%08x\n",spu[i].id);
		sysSpuThreadSetConfiguration(spu[i].id,(SPU_SIGNAL1_OVERWRITE | SPU_SIGNAL2_OVERWRITE));
	}

	printf("Starting SPU thread group....\n");
	sysSpuThreadGroupStart(group_id);

	printf("Initial array: ");
	for(i=0;i<4;i++) {
		array[i] = (i + 1);
		printf(" %d",array[i]);
	}
	printf("\n");

	/* Send signal notification to SPU 0 */
	printf("sending signal.... \n");
	sysSpuThreadWriteSignal(spu[0].id,0,1);

	/* Wait for SPU 5 to return */
	while(spu[5].sync==0);

	printf("Output array: ");
	for(i=0;i<4;i++) printf(" %d",array[i]);
	printf("\n");

	printf("Joining SPU thread group....\n");
	sysSpuThreadGroupJoin(group_id,&cause,&status);
	sysSpuImageClose(&image);

	free(array);
	free(spu);

	return 0;
}