screen->post_dsp_stx = x_res * (100 - dev_drv->overscan.left) / 200;
screen->post_dsp_sty = y_res * (100 - dev_drv->overscan.top) / 200;
screen->post_xsize = x_res *
- (dev_drv->overscan.left + dev_drv->overscan.right) / 200;
+ (dev_drv->overscan.left + dev_drv->overscan.right) / 200;
screen->post_ysize = y_res *
- (dev_drv->overscan.top + dev_drv->overscan.bottom) / 200;
+ (dev_drv->overscan.top + dev_drv->overscan.bottom) / 200;
h_total = screen->mode.hsync_len+screen->mode.left_margin +
x_res + screen->mode.right_margin;
v_total = screen->mode.vsync_len+screen->mode.upper_margin +
struct overscan *overscan)
{
struct lcdc_device *lcdc_dev =
- container_of(dev_drv, struct lcdc_device, driver);
+ container_of(dev_drv, struct lcdc_device, driver);
if (unlikely(!lcdc_dev->clk_on)) {
pr_info("%s,clk_on = %d\n", __func__, lcdc_dev->clk_on);
return 0;
}
- printk("%s,overscan=%d:%d,%d,%d\n", __func__,overscan->top,overscan->bottom,
- overscan->left,overscan->right);
- rk3288_lcdc_post_cfg(dev_drv);
+ rk3288_lcdc_post_cfg(dev_drv);
- return 0;
+ return 0;
}
static struct rk_lcdc_win lcdc_win[] = {