FreeCalypso > hg > fc-magnetite
view src/condat3/com/inc/macdef.h @ 700:800bf29abf31
audio mode load change from Tourmaline
Our FreeCalypso universe now has two kinds of audio mode config files:
the old 164 byte kind and the new 176 byte kind. We are not enabling
L1_NEW_AEC in Magnetite, only in Tourmaline, thus 164 byte audio mode
files are still native to Magnetite. But we still desire graceful
handling of the situation when a running Magnetite fw may load a
176 byte audio mode file (presumably with new AEC config), thus we
incorporate the same audio mode loading change which we implemented
in Tourmaline: if the loaded audio mode file is of the wrong kind,
the AEC config is cleared to default disabled state.
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Fri, 30 Jul 2021 03:55:52 +0000 |
| parents | c8bd5a927942 |
| children |
line wrap: on
line source
/* +----------------------------------------------------------------------------- | Project : | Modul : +----------------------------------------------------------------------------- | Copyright 2002 Texas Instruments Berlin, AG | All rights reserved. | | This file is confidential and a trade secret of Texas | Instruments Berlin, AG | The receipt of or possession of this file does not convey | any rights to reproduce or disclose its contents or to | manufacture, use, or sell anything it may describe, in | whole, or in part, without the specific written consent of | Texas Instruments Berlin, AG. +----------------------------------------------------------------------------- | Purpose : Contains macros for the unified implementation of the | Protocol Stack +----------------------------------------------------------------------------- */ #ifndef MACDEF_H #define MACDEF_H /* * Get/Set state for one incarnation. Init state has to be called first. */ #undef GET_STATE #undef SET_STATE #ifdef TRACE_STATE #define INIT_STATE(P,S) ENTITY_DATA->P name = SERVICE_NAME_##P; \ ENTITY_DATA->P state = S; \ ENTITY_DATA->P state_name = #S; #define SET_STATE(P,S) {ENTITY_DATA->P state = S; \ vsi_o_ttrace (VSI_CALLER \ TC_STATE, \ #P ":%s -> " #S, \ ENTITY_DATA->P state_name ); \ ENTITY_DATA->P state_name = #S;} #define GET_STATE(P) (vsi_o_ttrace (VSI_CALLER \ TC_STATE, \ #P ":%s", ENTITY_DATA->P state_name ), \ ENTITY_DATA->P state) #else #define INIT_STATE(P,S) {ENTITY_DATA->P state = S;} #define SET_STATE(P,S) {ENTITY_DATA->P state = S;} #define GET_STATE(P) (ENTITY_DATA->P state) #endif /* TRACE_STATE */ /* * MFREE_DESC() is used to free the given descriptor, along with all following * descriptors. * * Parameters: d -- "pointer" to the descriptor, either of type T_desc *, or * an ULONG */ #define MFREE_DESC(d) { T_desc *desc = (T_desc *)d; \ T_desc *next_desc; \ while (desc NEQ NULL) \ { \ next_desc = (T_desc *)desc->next; \ MFREE (desc); \ desc = next_desc; \ } \ } /* * PFREE_DESC() is used to free the given primitive, along with all * descriptors in the descriptor list of the primitive. * * Parameters: p -- pointer to the primitive containing a descriptor list * (if it is an ULONG, it has to be casted to the pointer * because the type cannot be determined by the macro!) */ #define PFREE_DESC(p) { MFREE_DESC ((p)->desc_list.first); \ PFREE ((p)); \ } /* * MFREE_DESC() is used to free the given descriptor, along with all following * descriptors. * * Parameters: d -- "pointer" to the descriptor, either of type T_desc *, or * an ULONG */ #define MFREE_DESC2(d) { T_desc2 *desc2 = (T_desc2 *)d; \ T_desc2 *next_desc2; \ while (desc2 NEQ NULL) \ { \ next_desc2 = (T_desc2 *)desc2->next; \ MFREE (desc2); \ desc2 = next_desc2; \ } \ } /* * PFREE_DESC() is used to free the given primitive, along with all * descriptors in the descriptor list of the primitive. * * Parameters: p -- pointer to the primitive containing a descriptor list * (if it is an ULONG, it has to be casted to the pointer * because the type cannot be determined by the macro!) */ #define PFREE_DESC2(p) { MFREE_DESC2 ((p)->desc_list2.first); \ PFREE ((p)); \ } #endif /* !MACDEF_H */