static void drv_lcd_open_callback(void *parg) { disp_lcd_flow *flow; u32 sel = (u32)parg; s32 i = lcd_flow_cnt[sel]++; flow = bsp_disp_lcd_get_open_flow(sel); if(i < flow->func_num) { flow->func[i].func(sel); if(flow->func[i].delay == 0) { drv_lcd_open_callback((void*)sel); } else { lcd_timer[sel].data = sel; lcd_timer[sel].expires = flow->func[i].delay; lcd_timer[sel].function = drv_lcd_open_callback; add_timer(&lcd_timer[sel]); } } else if(i == flow->func_num) { bsp_disp_lcd_post_enable(sel); lcd_op_finished[sel] = 1; } }
// [before][step_0][delay_0][step_1][delay_1]......[step_n-2][delay_n-2][step_n-1][delay_n-1][after] void DRV_lcd_open_callback(void *parg) { __lcd_flow_t *flow; __u32 sel = (__u32)parg; __s32 i = lcd_flow_cnt[sel]++; flow = bsp_disp_lcd_get_open_flow(sel); if(i < flow->func_num) { flow->func[i].func(sel); if(flow->func[i].delay == 0) { DRV_lcd_open_callback((void*)sel); } else { lcd_timer[sel].data = sel; lcd_timer[sel].expires = flow->func[i].delay; lcd_timer[sel].function = DRV_lcd_open_callback; add_timer(&lcd_timer[sel]); } } else if(i == flow->func_num) { bsp_disp_lcd_open_after(sel); lcd_op_finished[sel] = 1; } }