FreeCalypso > hg > tcs211-l1-reconst
view chipsetsw/drivers/drv_app/kpd/kpd_virtual_key_table_mgt.c @ 221:5aeabd5e6ded
l1tm_async.c: confirm_SignalCode bogon removed from
l1a_tmode_dedicated_process()
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Sat, 14 Jan 2017 22:17:37 +0000 |
| parents | 509db1a7b7b8 |
| children |
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/** * @file kpd_virtual_key_table_mgt.c * * Coding of the access function to configuration keypad table. * These functions allows to determine : * - the ASCII value associated to a virtual key, * - The virtual key ID associated to a physical key Id * * * @author Laurent Sollier (l-sollier@ti.com) * @version 0.1 */ /* * History: * * Date Author Modification * ---------------------------------------- * 10/10/2001 L Sollier Create * * * (C) Copyright 2001 by Texas Instruments Incorporated, All Rights Reserved */ #include "kpd/kpd_virtual_key_table_mgt.h" #include "kpd/kpd_virtual_key_table_def.h" /** * @name Virtual keys table management functions * */ /*@{*/ /** * function: kpd_initialize_ascii_table */ T_RV_RET kpd_initialize_ascii_table(void) { UINT8 i; INT8 position = KPD_POS_NOT_AVAILABLE; T_VIRTUAL_ASCII_TABLE table; /* Copy all the table */ for (i = 0; i < KPD_NB_PHYSICAL_KEYS; i++) { table[i].key_id = virtual_ascii_table[i].key_id; table[i].default_value_p = virtual_ascii_table[i].default_value_p; table[i].alphanumeric_value_p = virtual_ascii_table[i].alphanumeric_value_p; } for (i = 0; i < KPD_NB_PHYSICAL_KEYS; i++) { if (table[i].key_id != KPD_KEY_NULL) { /* Retrieve virtual key position (define in fact the pkysical key Id) */ kpd_retrieve_virtual_key_position(table[i].key_id, KPD_DEFAULT_MODE, &position); if (position == KPD_POS_NOT_AVAILABLE) return RV_INTERNAL_ERR; /* Update ASCII according to the physical key Id */ virtual_ascii_table[position].key_id = position; virtual_ascii_table[position].default_value_p = table[i].default_value_p; virtual_ascii_table[position].alphanumeric_value_p = table[i].alphanumeric_value_p; } } return RV_OK; } /** * function: kpd_get_virtual_key */ T_KPD_VIRTUAL_KEY_ID kpd_get_virtual_key( T_KPD_PHYSICAL_KEY_ID key_id, T_KPD_MODE mode) { return vpm_table[key_id][mode]; } /** * function: kpd_get_ascii_key_value */ T_RV_RET kpd_get_ascii_key_value(T_KPD_PHYSICAL_KEY_ID key_id, T_KPD_MODE mode, char** ascii_code_pp) { /* Retrieve ASCII code according to the mode */ if (mode == KPD_DEFAULT_MODE) *ascii_code_pp = virtual_ascii_table[key_id].default_value_p; else if (mode == KPD_ALPHANUMERIC_MODE) *ascii_code_pp = virtual_ascii_table[key_id].alphanumeric_value_p; else *ascii_code_pp = ""; return RV_OK; } /** * function: kpd_retrieve_virtual_key_position */ T_RV_RET kpd_retrieve_virtual_key_position( T_KPD_VIRTUAL_KEY_ID key_id, T_KPD_MODE mode, INT8* position_p) { T_RV_RET ret = RV_INVALID_PARAMETER; INT8 i = 0; *position_p = KPD_POS_NOT_AVAILABLE; if (key_id != KPD_KEY_NULL) { for (i = 0; i < KPD_NB_PHYSICAL_KEYS; i++) if (vpm_table[i][mode] == key_id) { *position_p = i; ret = RV_OK; break; } } return ret; } /** * function: kpd_get_default_keys */ T_RV_RET kpd_get_default_keys( T_KPD_VIRTUAL_KEY_TABLE* available_keys_p) { UINT8 nb_available_keys = 0; UINT8 i; for (i = 0; i < KPD_NB_PHYSICAL_KEYS; i++) { if (vpm_table[i][KPD_DEFAULT_MODE] != KPD_KEY_NULL) { available_keys_p->notified_keys[nb_available_keys] = vpm_table[i][KPD_DEFAULT_MODE]; nb_available_keys++; } } available_keys_p->nb_notified_keys = nb_available_keys; return RV_OK; } /** * function: kpd_check_key_table */ T_RV_RET kpd_check_key_table(T_KPD_VIRTUAL_KEY_TABLE* keys_table_p, T_KPD_MODE mode) { UINT8 i; INT8 position; T_KPD_VIRTUAL_KEY_ID virtual_key; UINT8 nb_notified_keys = 0; T_RV_RET ret = RV_OK; if (keys_table_p->nb_notified_keys == KPD_NB_PHYSICAL_KEYS) { /* Facility: if number of key is KPD_NB_PHYSICAL_KEYS, table of notified_keys is automatically fulfilled */ for (i = 0; i < KPD_NB_PHYSICAL_KEYS; i++) { virtual_key = kpd_get_virtual_key(i, mode); if (virtual_key != KPD_KEY_NULL) { keys_table_p->notified_keys[nb_notified_keys] = virtual_key; nb_notified_keys++; } } keys_table_p->nb_notified_keys = nb_notified_keys; } else { /* In another case (number of key less than KPD_NB_PHYSICAL_KEYS), verify that all the virtual keys are defined in the mode requested by the client */ for (i = 0; i < keys_table_p->nb_notified_keys; i++) { ret = kpd_retrieve_virtual_key_position(keys_table_p->notified_keys[i], mode, &position); if ( (ret != RV_OK) || (keys_table_p->notified_keys[i] == KPD_KEY_NULL) ) return RV_INVALID_PARAMETER; } } return RV_OK; } /** * function: kpd_define_new_config */ void kpd_define_new_config(T_KPD_VIRTUAL_KEY_TABLE* reference_keys_p, T_KPD_VIRTUAL_KEY_TABLE* new_keys_p) { UINT8 i; INT8 position; /* Unset old values in the table */ for (i = 0; i < KPD_NB_PHYSICAL_KEYS; i++) vpm_table[i][KPD_MODE_CONFIG] = KPD_KEY_NULL; /* Set values in the table */ for (i = 0; i < reference_keys_p->nb_notified_keys; i++) { /* */ kpd_retrieve_virtual_key_position(reference_keys_p->notified_keys[i], KPD_DEFAULT_MODE, &position); vpm_table[position][KPD_MODE_CONFIG] = new_keys_p->notified_keys[i]; } } /** * function: kpd_vpm_table_is_valid */ BOOL kpd_vpm_table_is_valid(void) { UINT8 i; for (i = 0; i < KPD_NB_PHYSICAL_KEYS; i++) { if (vpm_table[i][0] != i) return FALSE; } return TRUE; } /*@}*/