示例#1
0
文件: gfx.c 项目: glankk/gz
void gfx_sprite_draw(const struct gfx_sprite *sprite)
{
  struct gfx_texture *texture = sprite->texture;
  gfx_rdp_load_tile(texture, sprite->texture_tile);
  if (gfx_modes[GFX_MODE_DROPSHADOW]) {
    uint8_t a = gfx_modes[GFX_MODE_COLOR] & 0xFF;
    a = a * a / 0xFF;
    gfx_mode_replace(GFX_MODE_COLOR, GPACK_RGBA8888(0x00, 0x00, 0x00, a));
    gSPScisTextureRectangle(gfx_disp_p++,
                            qs102(sprite->x + 1) & ~3,
                            qs102(sprite->y + 1) & ~3,
                            qs102(sprite->x + texture->tile_width *
                                  sprite->xscale + 1) & ~3,
                            qs102(sprite->y + texture->tile_height *
                                  sprite->yscale + 1) & ~3,
                            G_TX_RENDERTILE,
                            qu105(0), qu105(0),
                            qu510(1.f / sprite->xscale),
                            qu510(1.f / sprite->yscale));
    gfx_mode_pop(GFX_MODE_COLOR);
  }
  gfx_sync();
  gSPScisTextureRectangle(gfx_disp_p++,
                          qs102(sprite->x) & ~3,
                          qs102(sprite->y) & ~3,
                          qs102(sprite->x + texture->tile_width *
                                sprite->xscale) & ~3,
                          qs102(sprite->y + texture->tile_height *
                                sprite->yscale) & ~3,
                          G_TX_RENDERTILE,
                          qu105(0), qu105(0),
                          qu510(1.f / sprite->xscale),
                          qu510(1.f / sprite->yscale));
  gfx_synced = 0;
}
示例#2
0
static int draw_proc(struct menu_item *item,
                     struct menu_draw_params *draw_params)
{
  static Gfx null_dl = gsSPEndDisplayList();
  struct item_data *data = item->data;
  /* handle input */
  if (!input_bind_held(COMMAND_PREVROOM) &&
      !input_bind_held(COMMAND_NEXTROOM))
  {
    uint16_t pad = input_pad();
    if (pad & BUTTON_Z) {
      if (pad & BUTTON_D_UP)
        data->y += 50.f;
      if (pad & BUTTON_D_DOWN)
        data->y += -50.f;
      if (pad & BUTTON_D_LEFT) {
        data->x -= cos(data->yaw) * 50.f;
        data->z += sin(data->yaw) * 50.f;
      }
      if (pad & BUTTON_D_RIGHT) {
        data->x -= cos(data->yaw) * -50.f;
        data->z += sin(data->yaw) * -50.f;
      }
    }
    else {
      if (pad & BUTTON_D_UP) {
        data->x -= sin(data->yaw) * 50.f;
        data->z -= cos(data->yaw) * 50.f;
      }
      if (pad & BUTTON_D_DOWN) {
        data->x -= sin(data->yaw) * -50.f;
        data->z -= cos(data->yaw) * -50.f;
      }
      if (pad & BUTTON_D_LEFT)
        data->yaw += .2f;
      if (pad & BUTTON_D_RIGHT)
        data->yaw -= .2f;
    }
  }
  /* load resources */
  if (data->state == STATE_LOAD) {
    /* initialize segment table */
    z64_stab_t stab = z64_stab;
    /* load scene */
    if (data->scene_index != data->scene_next || !data->scene_file) {
      if (data->scene_file)
        free(data->scene_file);
      data->scene_index = data->scene_next;
      data->room_index = -1;
      z64_scene_table_t *scene_entry = &z64_scene_table[data->scene_index];
      uint32_t scene_vrom_start = scene_entry->scene_vrom_start;
      uint32_t scene_vrom_end = scene_entry->scene_vrom_end;
      uint32_t scene_vrom_size = scene_vrom_end - scene_vrom_start;
      data->scene_file = malloc(scene_vrom_size);
      zu_getfile(scene_vrom_start, data->scene_file, scene_vrom_size);
    }
    stab.seg[Z64_SEG_SCENE] = MIPS_KSEG0_TO_PHYS(data->scene_file);
    /* populate room list */
    struct zu_file room_files[0x100];
    zu_scene_rooms(zu_sr_header(data->scene_file,
                                z64_file.scene_setup_index, &stab),
                   room_files, 0x100, &data->n_rooms, &stab);
    /* load room */
    if (data->room_index != data->room_next || !data->room_file) {
      if (data->room_file) {
        free(data->room_file);
        zu_mesh_destroy(&data->room_mesh);
      }
      data->room_index = data->room_next;
      uint32_t room_vrom_start = room_files[data->room_index].vrom_start;
      uint32_t room_vrom_end = room_files[data->room_index].vrom_end;
      uint32_t room_vrom_size = room_vrom_end - room_vrom_start;
      data->room_file = malloc(room_vrom_size);
      zu_getfile(room_vrom_start, data->room_file, room_vrom_size);
      stab.seg[Z64_SEG_ROOM] = MIPS_KSEG0_TO_PHYS(data->room_file);
      /* populate mesh */
      zu_room_mesh(zu_sr_header(data->room_file,
                                z64_file.scene_setup_index, &stab),
                   &data->room_mesh, &stab);
      /* populate vertex list */
      struct zu_vlist vlist;
      zu_vlist_init(&vlist);
      stab.seg[0x08] = MIPS_KSEG0_TO_PHYS(&null_dl);
      stab.seg[0x09] = MIPS_KSEG0_TO_PHYS(&null_dl);
      stab.seg[0x0A] = MIPS_KSEG0_TO_PHYS(&null_dl);
      stab.seg[0x0B] = MIPS_KSEG0_TO_PHYS(&null_dl);
      stab.seg[0x0C] = MIPS_KSEG0_TO_PHYS(&null_dl);
      stab.seg[0x0D] = MIPS_KSEG0_TO_PHYS(&null_dl);
      for (int i = 0; i < ZU_MESH_TYPES; ++i)
        for (int j = 0; j < data->room_mesh.all[i].size; ++j)
          zu_vlist_add_dl(&vlist, &stab,
                          zu_seg_locate(&stab,
                                        data->room_mesh.all[i].dlists[j]));
      /* compute bounding box */
      struct zu_bbox bbox;
      zu_vlist_bbox(&vlist, &bbox);
      /* set orientation */
      {
        data->x = (bbox.x1 + bbox.x2) / 2.f;
        data->y = (bbox.y1 + bbox.y2) / 2.f;
        data->z = (bbox.z1 + bbox.z2) / 2.f;
        data->yaw = 0.f;
      }
      zu_vlist_destroy(&vlist);
    }
    /* proceed to rendering */
    data->state = STATE_RENDER;
  }
  /* render room */
  if (data->state == STATE_RENDER && data->room_file) {
    /* initialize rcp for rendering rooms */
    static void *zbuf = NULL;
    if (!zbuf)
      zbuf = memalign(64, 2 * Z64_SCREEN_WIDTH * Z64_SCREEN_HEIGHT);
    gDisplayListAppend(&data->gfx.poly_opa.p,
      /* clear z buffer */
      gsDPPipeSync(),
      gsDPSetCycleType(G_CYC_FILL),
      gsDPSetRenderMode(G_RM_NOOP, G_RM_NOOP2),
      gsDPSetColorImage(G_IM_FMT_RGBA, G_IM_SIZ_16b, Z64_SCREEN_WIDTH, zbuf),
      gsDPSetFillColor((GPACK_ZDZ(G_MAXFBZ, 0) << 16) |
                       GPACK_ZDZ(G_MAXFBZ, 0)),
      gsDPFillRectangle(0, 0, Z64_SCREEN_WIDTH - 1, Z64_SCREEN_HEIGHT - 1),
      gsDPPipeSync(),
      gsDPSetColorImage(G_IM_FMT_RGBA, G_IM_SIZ_16b, Z64_SCREEN_WIDTH,
                        ZU_MAKE_SEG(Z64_SEG_CIMG, 0)),
      gsDPSetDepthImage(zbuf),
      /* rsp settings */
      gsSPSegment(Z64_SEG_SCENE, data->scene_file),
      gsSPSegment(Z64_SEG_ROOM, data->room_file),
      gsSPSegment(0x08, &null_dl),
      gsSPSegment(0x09, &null_dl),
      gsSPSegment(0x0A, &null_dl),
      gsSPSegment(0x0B, &null_dl),
      gsSPSegment(0x0C, &null_dl),
      gsSPSegment(0x0D, &null_dl),
      gsSPLoadGeometryMode(G_ZBUFFER | G_SHADE | G_CULL_BACK | G_LIGHTING |
                           G_SHADING_SMOOTH),
      /* rdp settings */
      gsDPSetAlphaCompare(G_AC_NONE),
      gsDPSetDepthSource(G_ZS_PIXEL),
      gsDPSetAlphaDither(G_AD_DISABLE),
      gsDPSetColorDither(G_CD_DISABLE),
      gsDPSetCombineKey(G_OFF),
      gsDPSetTextureConvert(G_TC_FILT),
      gsDPSetTextureFilter(G_TF_BILERP),
      gsDPSetTextureLOD(G_TL_TILE),
      gsDPSetTexturePersp(G_TP_PERSP),
      gsDPSetCycleType(G_CYC_2CYCLE),
      gsDPPipelineMode(G_PM_NPRIMITIVE),
      gsDPSetEnvColor(0xFF, 0xFF, 0xFF, 0xFF),
      gsDPSetFogColor(0x00, 0x00, 0x00, 0x00),
      gsDPSetScissor(G_SC_NON_INTERLACE, 32, 32,
                     Z64_SCREEN_WIDTH - 32, Z64_SCREEN_HEIGHT - 32),
    );
    /* create projection matrix */
    {
      Mtx m;
      MtxF mf;
      MtxF mt;
      guPerspectiveF(&mf, NULL, atanf(2.f),
                     (float)Z64_SCREEN_WIDTH / (float)Z64_SCREEN_HEIGHT,
                     50.f, 5000.f, 1.f);
      {
        guScaleF(&mt, data->scale, data->scale, data->scale);
        guMtxCatF(&mt, &mf, &mf);
      }
      {
        guRotateF(&mt, M_PI / 6.f, 1.f, 0.f, 0.f);
        guMtxCatF(&mt, &mf, &mf);
      }
      {
        guTranslateF(&mt, 0.f, -100.f, -200.f);
        guMtxCatF(&mt, &mf, &mf);
      }
      {
        guRotateF(&mt, -data->yaw, 0.f, 1.f, 0.f);
        guMtxCatF(&mt, &mf, &mf);
      }
      {
        guTranslateF(&mt, -data->x, -data->y, -data->z);
        guMtxCatF(&mt, &mf, &mf);
      }
      guMtxF2L(&mf, &m);
      gSPMatrix(data->gfx.poly_opa.p++,
                gDisplayListData(&data->gfx.poly_opa.d, m),
                G_MTX_PROJECTION | G_MTX_LOAD);
      gSPMatrix(data->gfx.poly_xlu.p++,
                gDisplayListData(&data->gfx.poly_xlu.d, m),
                G_MTX_PROJECTION | G_MTX_LOAD);
    }
    /* create modelview matrix */
    {
      Mtx m;
      guMtxIdent(&m);
      gSPMatrix(data->gfx.poly_opa.p++,
                gDisplayListData(&data->gfx.poly_opa.d, m),
                G_MTX_MODELVIEW | G_MTX_LOAD);
      gSPMatrix(data->gfx.poly_xlu.p++,
                gDisplayListData(&data->gfx.poly_xlu.d, m),
                G_MTX_MODELVIEW | G_MTX_LOAD);
    }
    /* configure lights */
    zu_gfx_inject(&data->gfx);
    set_lighting();
    /* execute scene config */
    z64_scene_config_table[z64_scene_table[
                           z64_game.scene_index].scene_config](&z64_game);
    zu_gfx_restore(&data->gfx);
    /* draw scene */
    for (int i = 0; i < ZU_MESH_TYPES; ++i)
      for (int j = 0; j < data->room_mesh.all[i].size; ++j) {
        if (i == ZU_MESH_OPA || i == ZU_MESH_NEAR) {
          gSPDisplayList(data->gfx.poly_opa.p++,
                         data->room_mesh.all[i].dlists[j]);
        }
        else if (i == ZU_MESH_XLU || i == ZU_MESH_FAR) {
          gSPDisplayList(data->gfx.poly_xlu.p++,
                         data->room_mesh.all[i].dlists[j]);
        }
      }
    /* draw actors */
    if (z64_game.pause_state == 0) {
      zu_gfx_inject(&data->gfx);
      z64_DrawActors(&z64_game, &z64_game.actor_ctxt);
      zu_gfx_restore(&data->gfx);
    }
    /* draw additional stuff */
    draw_crosshair(item);
    /* flush */
    gfx_disp(gsSPDisplayList(zu_gfx_flush(&data->gfx)));
    /* restore rcp modes */
    gfx_mode_init();
    /* draw info */
    gfx_mode_set(GFX_MODE_COLOR, GPACK_RGBA8888(0xC0, 0xC0, 0xC0,
                                                draw_params->alpha));
    gfx_printf(draw_params->font, 36, 44, "scene %i", data->scene_index);
    gfx_printf(draw_params->font, 36, 44 + menu_get_cell_height(item->owner, 1),
               "room  %i", data->room_index);
  }
  /* wait for rendering to finish before unloading */
  if (data->state == STATE_UNLOAD)
    data->state = STATE_LOAD;
  return 1;
}