static void update_acl_status(ACL_STATUS newAclStatus) { unsigned int flags; unsigned int uRegValue; if( newAclStatus >= ACL_STATUS_MAX ) { gprintk(" newAclStatus(%d) is invalid \n", newAclStatus); } if( cur_acl_status != newAclStatus ) { mutex_lock(&acl_lock); acl_is_processing = 1; msleep(15); //for 60HZ if( newAclStatus == ACL_STATUS_0P ) { ams397g201_acl_onoff(0); } else { panel_acl_send_sequence(acl_cutoff_param_set_tbl[newAclStatus], ACL_CUTOFF_PARAM_SET_DATA_COUNT); } acl_is_processing = 0; cur_acl_status = newAclStatus; mutex_unlock(&acl_lock); } gprintk("cur_acl_status is %s \n", acl_status_debug_strtbl[cur_acl_status]); }
static int s6e8ax0_set_acl(struct lcd_info *lcd) { int ret = 0; if (lcd->acl_enable) { if (lcd->cur_acl == 0) { if (lcd->bl == 0 || lcd->bl == 1) { s6e8ax0_write(lcd, SEQ_ACL_OFF, ARRAY_SIZE(SEQ_ACL_OFF)); dev_dbg(lcd->dev, "ACL_cutoff_set Percentage : off!!\n"); } else s6e8ax0_write(lcd, SEQ_ACL_ON, ARRAY_SIZE(SEQ_ACL_ON)); } switch (lcd->bl) { case 0 ... 1: /* 30cd ~ 40cd */ if (lcd->cur_acl != 0) { s6e8ax0_write(lcd, SEQ_ACL_OFF, ARRAY_SIZE(SEQ_ACL_OFF)); dev_dbg(&lcd->ld->dev, "ACL_cutoff_set Percentage : off!!\n"); lcd->cur_acl = 0; } break; case 2 ... 12: /* 70cd ~ 180cd */ if (lcd->cur_acl != 40) { panel_acl_send_sequence(lcd, acl_cutoff_table[1]); dev_dbg(&lcd->ld->dev, "ACL_cutoff_set Percentage : 40!!\n"); lcd->cur_acl = 40; } break; case 13: /* 190cd */ if (lcd->cur_acl != 43) { panel_acl_send_sequence(lcd, acl_cutoff_table[2]); dev_dbg(&lcd->ld->dev, "ACL_cutoff_set Percentage : 43!!\n"); lcd->cur_acl = 43; } break; case 14: /* 200cd */ if (lcd->cur_acl != 45) { panel_acl_send_sequence(lcd, acl_cutoff_table[3]); dev_dbg(&lcd->ld->dev, "ACL_cutoff_set Percentage : 45!!\n"); lcd->cur_acl = 45; } break; case 15: /* 210cd */ if (lcd->cur_acl != 47) { panel_acl_send_sequence(lcd, acl_cutoff_table[4]); dev_dbg(&lcd->ld->dev, "ACL_cutoff_set Percentage : 47!!\n"); lcd->cur_acl = 47; } break; case 16: /* 220cd */ if (lcd->cur_acl != 48) { panel_acl_send_sequence(lcd, acl_cutoff_table[5]); dev_dbg(&lcd->ld->dev, "ACL_cutoff_set Percentage : 48!!\n"); lcd->cur_acl = 48; } break; default: if (lcd->cur_acl != 50) { panel_acl_send_sequence(lcd, acl_cutoff_table[6]); dev_dbg(&lcd->ld->dev, "ACL_cutoff_set Percentage : 50!!\n"); lcd->cur_acl = 50; } break; } } else {
static int s6e8aa0_set_acl(void) { int ret = 0; if(!lcd.ldi_enable) { ret = -1; goto acl_err; } if (lcd.acl_enable) { if(lcd.cur_acl == 0) { s6e8aa0_acl_onoff(1); } switch (lcd.bl) { case 0 ... 1: /* 30cd ~ 40cd */ if (lcd.cur_acl != 0) { panel_acl_send_sequence(acl_cutoff_param_set_tbl[0], ACL_CUTOFF_PARAM_SET_DATA_COUNT); dev_dbg(lcd.dev, "ACL_cutoff_set Percentage : off!!\n"); lcd.cur_acl = 0; } break; case 2 ... 12: /* 70cd ~ 180cd */ if (lcd.cur_acl != 40) { panel_acl_send_sequence(acl_cutoff_param_set_tbl[1], ACL_CUTOFF_PARAM_SET_DATA_COUNT); dev_dbg(lcd.dev, "ACL_cutoff_set Percentage : 40!!\n"); lcd.cur_acl = 40; } break; case 13: /* 190cd */ if (lcd.cur_acl != 43) { panel_acl_send_sequence(acl_cutoff_param_set_tbl[2], ACL_CUTOFF_PARAM_SET_DATA_COUNT); dev_dbg(lcd.dev, "ACL_cutoff_set Percentage : 43!!\n"); lcd.cur_acl = 43; } break; case 14: /* 200cd */ if (lcd.cur_acl != 45) { panel_acl_send_sequence(acl_cutoff_param_set_tbl[3], ACL_CUTOFF_PARAM_SET_DATA_COUNT); dev_dbg(lcd.dev, "ACL_cutoff_set Percentage : 45!!\n"); lcd.cur_acl = 45; } break; case 15: /* 210cd */ if (lcd.cur_acl != 47) { panel_acl_send_sequence(acl_cutoff_param_set_tbl[4], ACL_CUTOFF_PARAM_SET_DATA_COUNT); dev_dbg(lcd.dev, "ACL_cutoff_set Percentage : 47!!\n"); lcd.cur_acl = 47; } break; case 16: /* 220cd */ if (lcd.cur_acl != 48) { panel_acl_send_sequence(acl_cutoff_param_set_tbl[5], ACL_CUTOFF_PARAM_SET_DATA_COUNT); dev_dbg(lcd.dev, "ACL_cutoff_set Percentage : 48!!\n"); lcd.cur_acl = 48; } break; default: if (lcd.cur_acl != 50) { panel_acl_send_sequence(acl_cutoff_param_set_tbl[6], ACL_CUTOFF_PARAM_SET_DATA_COUNT); dev_dbg(lcd.dev, "ACL_cutoff_set Percentage : 50!!\n"); lcd.cur_acl = 50; } break; } } else{