| /* |
| * Copyright (C) 2008-2009 SVOX AG, Baslerstr. 30, 8048 Zuerich, Switzerland |
| * |
| * Licensed under the Apache License, Version 2.0 (the "License"); |
| * you may not use this file except in compliance with the License. |
| * You may obtain a copy of the License at |
| * |
| * http://www.apache.org/licenses/LICENSE-2.0 |
| * |
| * Unless required by applicable law or agreed to in writing, software |
| * distributed under the License is distributed on an "AS IS" BASIS, |
| * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
| * See the License for the specific language governing permissions and |
| * limitations under the License. |
| */ |
| /** |
| * @file picopam.c |
| * |
| * Phonetic to Acoustic Mapping PU - Implementation |
| * |
| * Copyright (C) 2008-2009 SVOX AG, Baslerstr. 30, 8048 Zuerich, Switzerland |
| * All rights reserved. |
| * |
| * History: |
| * - 2009-04-20 -- initial version |
| * |
| */ |
| |
| #include "picodefs.h" |
| #include "picoos.h" |
| #include "picodbg.h" |
| #include "picodata.h" |
| #include "picopam.h" |
| #include "picokdt.h" |
| #include "picokpdf.h" |
| #include "picoktab.h" |
| #include "picokdbg.h" |
| #include "picodsp.h" |
| |
| #ifdef __cplusplus |
| extern "C" { |
| #endif |
| #if 0 |
| } |
| #endif |
| |
| #define PICOPAM_IN_BUFF_SIZE PICODATA_BUFSIZE_PAM /*input buffer size for PAM */ |
| #define PICOPAM_OUT_PAM_SIZE PICODATA_BUFSIZE_PAM /*output buffer size for PAM*/ |
| #define PICOPAM_DT_NRLFZ 5 /* nr of lfz decision trees per phoneme */ |
| #define PICOPAM_DT_NRMGC 5 /* nr of mgc decision trees per phoneme */ |
| #define PICOPAM_NRSTPF 5 /* nr of states per phone */ |
| |
| #define PICOPAM_COLLECT 0 |
| #define PICOPAM_SCHEDULE 1 |
| #define PICOPAM_IMMEDIATE 2 |
| #define PICOPAM_FORWARD 3 |
| #define PICOPAM_FORWARD_FORCE_TERM 4 |
| #define PICOPAM_PROCESS 5 |
| #define PICOPAM_PLAY 6 |
| #define PICOPAM_FEED 7 |
| |
| #define PICOPAM_CONTINUE 100 |
| #define PICOPAM_GOTO_SCHEDULE 1 |
| #define PICOPAM_FLUSH_RECEIVED 6 |
| #define PICOPAM_GOTO_FEED 7 |
| #define PICOPAM_PRE_SYLL_ENDED 10 |
| |
| #define PICOPAM_BREAK_ADD_SIZE 4 /*syllable feature vector increment dued to BREAK and SILENCE*/ |
| #define PICOPAM_VECT_SIZE 64+PICOPAM_BREAK_ADD_SIZE /*syllable feature vector size (bytes)*/ |
| #define PICOPAM_INVEC_SIZE 60 /*phone feature vector size */ |
| #define PICOPAM_MAX_SYLL_PER_SENT 100 /*maximum number of syllables per sentece*/ |
| #define PICOPAM_MAX_PH_PER_SENT 400 /*maximum number of phonemes per sentece*/ |
| #define PICOPAM_MAX_ITEM_PER_SENT 255 /*maximum number of attached items per sentence*/ |
| #define PICOPAM_MAX_ITEM_SIZE_PER_SENT 4096 /*maximum size of attached items per sentence*/ |
| |
| #define PICOPAM_READY 20 /*PAM could start backward processing*/ |
| #define PICOPAM_MORE 21 /*PAM has still to collect */ |
| #define PICOPAM_NA 22 /*PAM has not to deal with this item*/ |
| #define PICOPAM_ERR 23 /*input item is not a valid item*/ |
| |
| /*sentence types:cfr pam_map_sentence_type*/ |
| #define PICOPAM_DECLARATIVE 0 |
| #define PICOPAM_INTERROGATIVE 1 |
| #define PICOPAM_EXCLAMATIVE 2 |
| |
| #define PICOPAM_T 0 |
| #define PICOPAM_P 1 |
| #define PICOPAM_p 2 |
| #define PICOPAM_Y 3 |
| |
| #if 1 |
| #define PAM_PHR2_WITH_PR1 1 /*deal with PHR2 boundaries as with PHR1*/ |
| #else |
| #define PAM_PHR2_WITH_PR3 1 /*deal with PHR2 boundaries as with PHR3*/ |
| #endif |
| |
| #define PICOPAM_DONT_CARE_VALUE 250 /*don't care value for tree printout */ |
| #define PICOPAM_DONT_CARE_VAL 10 /*don't care value for tree feeding */ |
| #define PICOPAM_PH_DONT_CARE_VAL 7 /*don't care value for tree feeding (phonetic)*/ |
| |
| #define PICOPAM_MAX_STATES_PER_PHONE 5 /*number of states per phone */ |
| #define PICOPAM_STATE_SIZE_IN_ITEM 6 /*size of a state in frame item */ |
| #define PICOPAM_FRAME_ITEM_SIZE 4+PICOPAM_MAX_STATES_PER_PHONE*PICOPAM_STATE_SIZE_IN_ITEM |
| |
| #define PICOPAM_DIR_FORW 0 /*forward adapter processing*/ |
| #define PICOPAM_DIR_BACK 1 /*backward adapter processing*/ |
| #define PICOPAM_DIR_SIL 2 /*final silence attributes*/ |
| |
| #define PICOPAM_SYLL_PAUSE 0 /*syllable but containing a pause phone*/ |
| #define PICOPAM_SYLL_SYLL 1 /*a real syllable with phonemes*/ |
| |
| #define PICOPAM_EVENT_P_BOUND 0 /*primary boundary*/ |
| #define PICOPAM_EVENT_S_BOUND 1 /*secondary boundary*/ |
| #define PICOPAM_EVENT_W_BOUND 3 /*word boundary*/ |
| #define PICOPAM_EVENT_SYLL 4 /*syllable*/ |
| |
| /* ----- CONSTANTS FOR BREAK COMMAND SUPPORT ----- */ |
| #define PICOPAM_PWIDX_SBEG 0 |
| #define PICOPAM_PWIDX_PHR1 1 |
| #define PICOPAM_PWIDX_PHR2 2 |
| #define PICOPAM_PWIDX_SEND 3 |
| #define PICOPAM_PWIDX_DEFA 4 |
| #define PICOPAM_PWIDX_SIZE 5 |
| |
| /*----------------------------------------------------------------*/ |
| /*structure related to the feature vectors for feeding the trees */ |
| /*NOTE : the same data structure is used to manage the syllables */ |
| /* Using the first 8 fields for marking the boundaries */ |
| /* and using the last 4 bytes as follows */ |
| /* byte 61 : 1st attached non PAM item id(0=no item attached) */ |
| /* in the "sSyllItemOffs" data structure */ |
| /* byte 62 : last attached non PAM item id(0=no item attached)*/ |
| /* in the "sSyllItemOffs" data structure */ |
| /* byte 63..64 : offset of the start of the syllable in */ |
| /* the "sPhIds" data structure */ |
| typedef struct |
| { |
| picopal_uint8 phoneV[PICOPAM_VECT_SIZE]; |
| } sFtVect, *pSftVect; |
| |
| /*---------------------------------------------------------- |
| Name : pam_subobj |
| Function: subobject definition for the pam processing |
| Shortcut: pam |
| ---------------------------------------------------------*/ |
| typedef struct pam_subobj |
| { |
| /*----------------------PU voice management------------------------------*/ |
| /* picorsrc_Voice voice; */ |
| /*----------------------PU state management------------------------------*/ |
| picoos_uint8 procState; /* where to take up work at next processing step */ |
| picoos_uint8 retState; /* where to go back from feed state at next p.s. */ |
| picoos_uint8 needMoreInput; /* more data necessary to start processing */ |
| /*----------------------PU input management------------------------------*/ |
| picoos_uint8 inBuf[PICOPAM_IN_BUFF_SIZE]; /* internal input buffer */ |
| picoos_uint16 inBufSize; /* actually allocated size */ |
| picoos_uint16 inReadPos, inWritePos; /* next pos to read/write from/to inBuf*/ |
| /*----------------------PU output management-----------------------------*/ |
| picoos_uint8 outBuf[PICOPAM_OUT_PAM_SIZE]; /* internal output buffer */ |
| picoos_uint16 outBufSize; /* actually allocated size */ |
| picoos_uint16 outReadPos, outWritePos; /* next pos to read/write from/to outBuf*/ |
| /*---------------------- adapter working buffers --------------------*/ |
| picoos_uint8 *sPhFeats; /*feature vector for a single phone */ |
| sFtVect *sSyllFeats; /*Syllable feature vector set for the |
| full sentence */ |
| picoos_uint8 *sPhIds; /*phone ids for the full sentence */ |
| picoos_uint8 *sSyllItems; /*items attached to the syllable */ |
| picoos_int16 *sSyllItemOffs;/*offset of items attached to the syllable*/ |
| /*---------------------- adapter general variables ---------------------*/ |
| picoos_int16 nTotalPhonemes; /*number of phonemes in the sentence*/ |
| picoos_int16 nCurrPhoneme; /*current phoneme in the sentence */ |
| picoos_int16 nSyllPhoneme; /*current phoneme in the syllable */ |
| picoos_int16 nCurrSyllable; /*current syllable in the sentence */ |
| picoos_int16 nTotalSyllables; /*number of syllables in the sentence -> J1*/ |
| picoos_uint8 nLastAttachedItemId;/*last attached item id*/ |
| picoos_uint8 nCurrAttachedItem; /*current attached item*/ |
| picoos_int16 nAttachedItemsSize; /*total size of the attached items*/ |
| picoos_uint8 sType; /*Sentence type*/ |
| picoos_uint8 pType; /*Phrase type*/ |
| picoos_single pMod; /*pitch modifier*/ |
| picoos_single dMod; /*Duration modifier*/ |
| picoos_single dRest; /*Duration modifier rest*/ |
| /*---------------------- adapter specific component variables ----------*/ |
| picoos_uint8 a3_overall_syllable; /* A3 */ |
| picoos_uint8 a3_primary_phrase_syllable; |
| picoos_uint8 b4_b5_syllable; /* B4,B5 */ |
| picoos_uint8 b6_b7_syllable; /* B6,B7 */ |
| picoos_uint8 b6_b7_state; |
| picoos_uint8 b8_b9_stressed_syllable; /* B8,B9 */ |
| picoos_uint8 b10_b11_accented_syllable; /* B10,B11 */ |
| picoos_uint8 b12_b13_syllable; /* B12,B13 */ |
| picoos_uint8 b12_b13_state; |
| picoos_uint8 b14_b15_syllable; /* B14,B15 */ |
| picoos_uint8 b14_b15_state; |
| picoos_uint8 b17_b19_syllable; /* B17,B19 */ |
| picoos_uint8 b17_b19_state; |
| picoos_uint8 b18_b20_b21_syllable; /* B18,B20,B21 */ |
| picoos_uint8 b18_b20_b21_state; |
| picoos_uint8 c3_overall_syllable; /* C3 */ |
| picoos_uint8 c3_primary_phrase_syllable; |
| picoos_uint8 d2_syllable_in_word; /* D2 */ |
| picoos_uint8 d2_prev_syllable_in_word; |
| picoos_uint8 d2_current_primary_phrase_word; |
| picoos_int8 e1_syllable_word_start; /* E1 */ |
| picoos_int8 e1_syllable_word_end; |
| picoos_uint8 e1_content; |
| picoos_int8 e2_syllable_word_start; /* E2 */ |
| picoos_int8 e2_syllable_word_end; |
| picoos_uint8 e3_e4_word; /* E3,E4 */ |
| picoos_uint8 e3_e4_state; |
| picoos_uint8 e5_e6_content_word; /* E5,E6 */ |
| picoos_uint8 e5_e6_content; |
| picoos_uint8 e7_e8_word; /* E7,E8 */ |
| picoos_uint8 e7_e8_content; |
| picoos_uint8 e7_e8_state; |
| picoos_uint8 e9_e11_word; /* E9,E11 */ |
| picoos_uint8 e9_e11_saw_word; |
| picoos_uint8 e9_e11_state; |
| picoos_uint8 e10_e12_e13_word; /* E10,E12,E13 */ |
| picoos_uint8 e10_e12_e13_state; |
| picoos_uint8 e10_e12_e13_saw_word; |
| picoos_uint8 f2_overall_word; /* F2 */ |
| picoos_uint8 f2_word_syllable; |
| picoos_uint8 f2_next_word_syllable; |
| picoos_uint8 f2_current_primary_phrase_word; |
| picoos_int8 g1_current_secondary_phrase_syllable; /*G1 */ |
| picoos_int8 g1_current_syllable; |
| picoos_int8 g2_current_secondary_phrase_word; /*G2 */ |
| picoos_int8 g2_current_word; |
| picoos_uint8 h1_current_secondary_phrase_syll; /*H1 */ |
| picoos_uint8 h2_current_secondary_phrase_word; /*H2 */ |
| picoos_uint8 h3_h4_current_secondary_phrase_word; /*H3,H4 */ |
| picoos_uint8 h5_current_phrase_type; /*H5 */ |
| |
| picoos_uint8 h5_syllable; /* H5 */ |
| picoos_uint8 h5_state; |
| |
| picoos_uint8 i1_secondary_phrase_syllable; /*I1 */ |
| picoos_uint8 i1_next_secondary_phrase_syllable; |
| picoos_uint8 i2_secondary_phrase_word; /*I2 */ |
| picoos_uint8 i2_next_secondary_phrase_word; |
| picoos_uint8 j1_utterance_syllable; /*J1 */ |
| picoos_uint8 j2_utterance_word; /*J2 */ |
| picoos_uint8 j3_utterance_sec_phrases; /*J3 */ |
| /*---------------------- constant data -------------------*/ |
| picoos_uint16 sil_weights[PICOPAM_PWIDX_SIZE][PICOPAM_MAX_STATES_PER_PHONE]; |
| /*---------------------- LINGWARE related data -------------------*/ |
| picokdt_DtPAM dtdur; /* dtdur knowledge base */ |
| picokdt_DtPAM dtlfz[PICOPAM_DT_NRLFZ]; /* dtlfz knowledge bases */ |
| picokdt_DtPAM dtmgc[PICOPAM_DT_NRMGC]; /* dtmgc knowledge bases */ |
| /*---------------------- Pdfs related data -------------------*/ |
| picokpdf_PdfDUR pdfdur; /* pdfdur knowledge base */ |
| picokpdf_PdfMUL pdflfz; /* pdflfz knowledge base */ |
| /*---------------------- Tree traversal related data -------------------*/ |
| picoos_uint16 durIndex; |
| picoos_uint8 numFramesState[PICOPAM_DT_NRLFZ]; |
| picoos_uint16 lf0Index[PICOPAM_DT_NRLFZ]; |
| picoos_uint16 mgcIndex[PICOPAM_DT_NRMGC]; |
| /*---------------------- temps for updating the feature vector ---------*/ |
| picoos_uint16 phonDur; |
| picoos_single phonF0[PICOPAM_DT_NRLFZ]; |
| /*---------------------- Phones related data -------------------*/ |
| picoktab_Phones tabphones; |
| } pam_subobj_t; |
| |
| |
| /* ----- CONSTANTS FOR FEATURE VECTOR BUILDING (NOT PREFIXED WITH "PICOPAM_" FOR BREVITY) ----- */ |
| #define P1 0 /*field 1 of the input vector*/ |
| #define P2 1 |
| #define P3 2 |
| #define P4 3 |
| #define P5 4 |
| #define P6 5 |
| #define P7 6 |
| #define bnd 6 /*boundary type item associated to the syllable = P7 */ |
| #define P8 7 |
| #define A3 8 |
| #define B1 9 |
| #define B2 10 |
| #define B3 11 |
| #define B4 12 |
| #define B5 13 |
| #define B6 14 |
| #define B7 15 |
| #define B8 16 |
| #define B9 17 |
| #define B10 18 |
| #define B11 19 |
| #define B12 20 |
| #define B13 21 |
| #define B14 22 |
| #define B15 23 |
| #define B16 24 |
| #define B17 25 |
| #define B18 26 |
| #define B19 27 |
| #define B20 28 |
| #define B21 29 |
| #define C3 30 |
| #define D2 31 |
| #define E1 32 |
| #define E2 33 |
| #define E3 34 |
| #define E4 35 |
| #define E5 36 |
| #define E6 37 |
| #define E7 38 |
| #define E8 39 |
| #define E9 40 |
| #define E10 41 |
| #define E11 42 |
| #define E12 43 |
| #define E13 44 |
| #define F2 45 |
| #define G1 46 |
| #define G2 47 |
| #define H1 48 |
| #define H2 49 |
| #define H3 50 |
| #define H4 51 |
| #define H5 52 |
| #define I1 53 |
| #define I2 54 |
| #define J1 55 |
| #define J2 56 |
| #define J3 57 |
| #define DUR 58 /*duration component*/ |
| #define F0 59 /*F0 component*/ |
| #define ITM 60 /*Item Offset into sSyllItems item list*/ |
| #define itm 61 /*second byte of the Item Offset */ |
| #define FID 62 /*Phoneme offset in the sPhIds phoneme list*/ |
| #define fid 63 /*second byte of the Phoneme offset */ |
| #define Min 64 /*offset to min syllable duration (uint 16,pauses)*/ |
| #define Max 66 /*offset to max syllable duration (uint 16,pauses)*/ |
| /* ------------------------------------------------------------------- |
| PAM feature vector indices position changes, |
| ------------------------------------------------------------------- */ |
| #define T_B1 8 |
| #define T_B2 9 |
| #define T_B3 10 |
| #define T_B4 11 |
| #define T_B5 12 |
| #define T_B6 13 |
| #define T_B7 14 |
| #define T_B8 15 |
| #define T_B9 16 |
| #define T_B10 17 |
| #define T_B11 18 |
| #define T_B12 19 |
| #define T_B13 20 |
| #define T_B14 21 |
| #define T_B15 22 |
| #define T_B16 23 |
| #define T_B17 24 |
| #define T_B18 25 |
| #define T_B19 26 |
| #define T_B20 27 |
| #define T_B21 28 |
| #define T_E1 29 |
| #define T_E2 30 |
| #define T_E3 31 |
| #define T_E4 32 |
| #define T_E5 33 |
| #define T_E6 34 |
| #define T_E7 35 |
| #define T_E8 36 |
| #define T_E9 37 |
| #define T_E10 38 |
| #define T_E11 39 |
| #define T_E12 40 |
| #define T_E13 41 |
| #define T_A3 42 |
| #define T_C3 43 |
| #define T_D2 44 |
| #define T_F2 45 |
| #define T_G1 46 |
| #define T_I1 47 |
| #define T_G2 48 |
| #define T_I2 49 |
| #define T_H1 50 |
| #define T_H2 51 |
| #define T_H3 52 |
| #define T_H4 53 |
| #define T_H5 54 |
| |
| /*------------------------------------------------------------------ |
| Service routines : |
| ------------------------------------------------------------------*/ |
| static pico_status_t pam_initialize(register picodata_ProcessingUnit this); |
| static pico_status_t pam_terminate(register picodata_ProcessingUnit this); |
| static pico_status_t pam_allocate(picoos_MemoryManager mm, pam_subobj_t *pam); |
| static void pam_deallocate(picoos_MemoryManager mm, pam_subobj_t *pam); |
| static pico_status_t pam_subobj_deallocate(register picodata_ProcessingUnit this, |
| picoos_MemoryManager mm); |
| /*------------------------------------------------------------------ |
| Processing routines : |
| ------------------------------------------------------------------*/ |
| static picodata_step_result_t pam_step(register picodata_ProcessingUnit this, |
| picoos_int16 mode, picoos_uint16 * numBytesOutput); |
| static pico_status_t pam_deal_with(const picoos_uint8 *item); |
| /*Utility*/ |
| static picoos_uint8 pam_get_vowel_name(register picodata_ProcessingUnit this, |
| picoos_uint8 *item, picoos_uint8 *pos); |
| static picoos_uint8 pam_get_pause_id(register picodata_ProcessingUnit this); |
| |
| static picoos_uint8 pam_map_sentence_type(picoos_uint8 iteminfo1, |
| picoos_uint8 iteminfo2); |
| static picoos_uint8 pam_map_phrase_type(picoos_uint8 iteminfo1, |
| picoos_uint8 iteminfo2); |
| |
| /*Adapter*/ |
| static pico_status_t pam_reset_processors(register picodata_ProcessingUnit this); |
| static pico_status_t pam_reset_processors_back( |
| register picodata_ProcessingUnit this); |
| static pico_status_t pam_create_syllable(register picodata_ProcessingUnit this, |
| picoos_uint8 syllType, picoos_uint8 *sContent, picoos_uint8 sentType, |
| picoos_uint8 phType, picoos_uint8 uBoundType, picoos_uint16 uMin, |
| picoos_uint16 uMax); |
| static pico_status_t pam_process_event_feature( |
| register picodata_ProcessingUnit this, picoos_uint8 nFeat, |
| picoos_uint8 event_type, picoos_uint8 direction); |
| static pico_status_t pam_process_event(register picodata_ProcessingUnit this, |
| picoos_uint8 event_type, picoos_uint8 direction); |
| static pico_status_t pam_adapter_forward_step( |
| register picodata_ProcessingUnit this, picoos_uint8 *itemBase); |
| static pico_status_t pam_adapter_backward_step( |
| register picodata_ProcessingUnit this); |
| static pico_status_t pam_do_pause(register picodata_ProcessingUnit this); |
| static pico_status_t pam_adapter_do_pauses(register picodata_ProcessingUnit this); |
| /*-------------- tree traversal ---------------------------------------*/ |
| static pico_status_t pam_expand_vector(register picodata_ProcessingUnit this); |
| static picoos_uint8 pam_do_tree(register picodata_ProcessingUnit this, |
| const picokdt_DtPAM dtpam, const picoos_uint8 *invec, |
| const picoos_uint8 inveclen, picokdt_classify_result_t *dtres); |
| static pico_status_t pam_get_f0(register picodata_ProcessingUnit this, |
| picoos_uint16 *lf0Index, picoos_uint8 nState, picoos_single *phonF0); |
| static pico_status_t pam_get_duration(register picodata_ProcessingUnit this, |
| picoos_uint16 durIndex, picoos_uint16 *phonDur, |
| picoos_uint8 *numFramesState); |
| static pico_status_t pam_update_vector(register picodata_ProcessingUnit this); |
| /*-------------- FINAL ITEM FEEDING -----------------------------------------*/ |
| static pico_status_t pam_put_item(register picodata_ProcessingUnit this, |
| picoos_uint8 *outBuff, picoos_uint16 outWritePos, |
| picoos_uint8 *bytesWr); |
| |
| static pico_status_t pam_put_term(picoos_uint8 *outBuff, |
| picoos_uint16 outWritePos, picoos_uint8 *bytesWr); |
| |
| static pico_status_t is_pam_command(const picoos_uint8 *qItem); |
| |
| static void get_default_boundary_limit(picoos_uint8 uBoundType, |
| picoos_uint16 *uMinDur, picoos_uint16 *uMaxDur); |
| |
| /* ------------------------------------------------------------- |
| * Pico System functions |
| * ------------------------------------------------------------- |
| */ |
| |
| /** |
| * allocation for PAM memory on pam PU |
| * @param mm : handle to engine memory manager |
| * @param pam : handle to a pam struct |
| * @return PICO_OK : allocation successful |
| * @return PICO_ERR_OTHER : allocation errors |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t pam_allocate(picoos_MemoryManager mm, pam_subobj_t *pam) |
| { |
| picoos_uint8 *data; |
| picoos_int16 *dataI; |
| |
| pam->sSyllFeats = NULL; |
| pam->sPhIds = NULL; |
| pam->sPhFeats = NULL; |
| pam->sSyllItems = NULL; |
| pam->sSyllItemOffs = NULL; |
| |
| /*----------------------------------------------------------------- |
| * PAM Local buffers ALLOCATION |
| ------------------------------------------------------------------*/ |
| /*PAM Local buffers*/ |
| data = (picopal_uint8 *) picoos_allocate(mm, sizeof(sFtVect) |
| * PICOPAM_MAX_SYLL_PER_SENT); |
| if (data == NULL) |
| return PICO_ERR_OTHER; |
| pam->sSyllFeats = (sFtVect*) data; |
| |
| data = (picopal_uint8 *) picoos_allocate(mm, sizeof(picopal_uint8) |
| * PICOPAM_MAX_PH_PER_SENT); |
| if (data == NULL) { |
| pam_deallocate(mm, pam); |
| return PICO_ERR_OTHER; |
| } |
| pam->sPhIds = (picopal_uint8*) data; |
| |
| data = (picopal_uint8 *) picoos_allocate(mm, sizeof(picopal_uint8) |
| * PICOPAM_VECT_SIZE); |
| if (data == NULL) { |
| pam_deallocate(mm, pam); |
| return PICO_ERR_OTHER; |
| } |
| pam->sPhFeats = (picopal_uint8*) data; |
| |
| data = (picopal_uint8 *) picoos_allocate(mm, sizeof(picopal_uint8) |
| * PICOPAM_MAX_ITEM_SIZE_PER_SENT); |
| if (data == NULL) { |
| pam_deallocate(mm, pam); |
| return PICO_ERR_OTHER; |
| } |
| pam->sSyllItems = (picopal_uint8*) data; |
| |
| dataI = (picoos_int16 *) picoos_allocate(mm, sizeof(picoos_int16) |
| * PICOPAM_MAX_ITEM_PER_SENT); |
| if (data == NULL) { |
| pam_deallocate(mm, pam); |
| return PICO_ERR_OTHER; |
| } |
| pam->sSyllItemOffs = (picoos_int16*) dataI; |
| |
| return PICO_OK; |
| }/*pam_allocate*/ |
| |
| /** |
| * frees allocation for DSP memory on PAM PU |
| * @param mm : memory manager |
| * @param pam : pam PU internal sub-object |
| * @return void |
| * @remarks modified and inserted in sub obj removal PP 15.09.08 |
| * @callgraph |
| * @callergraph |
| */ |
| static void pam_deallocate(picoos_MemoryManager mm, pam_subobj_t *pam) |
| { |
| /*----------------------------------------------------------------- |
| * Memory de-allocations |
| * ------------------------------------------------------------------*/ |
| if (pam->sSyllFeats != NULL) |
| picoos_deallocate(mm, (void *) &pam->sSyllFeats); |
| if (pam->sPhIds != NULL) |
| picoos_deallocate(mm, (void *) &pam->sPhIds); |
| if (pam->sPhFeats != NULL) |
| picoos_deallocate(mm, (void *) &pam->sPhFeats); |
| if (pam->sSyllItems != NULL) |
| picoos_deallocate(mm, (void *) &pam->sSyllItems); |
| if (pam->sSyllItemOffs != NULL) |
| picoos_deallocate(mm, (void *) &pam->sSyllItemOffs); |
| |
| }/*pam_deallocate*/ |
| |
| /** |
| * initialization of a pam PU |
| * @param this : handle to a PU struct |
| * @return PICO_OK : init OK |
| * @return PICO_ERR_OTHER : error on getting pkbs addresses |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t pam_initialize(register picodata_ProcessingUnit this) |
| { |
| pico_status_t nI, nJ; |
| pam_subobj_t *pam; |
| |
| if (NULL == this || NULL == this->subObj) { |
| return PICO_ERR_OTHER; |
| } |
| pam = (pam_subobj_t *) this->subObj; |
| pam->inBufSize = PICOPAM_IN_BUFF_SIZE; |
| pam->outBufSize = PICOPAM_OUT_PAM_SIZE; |
| pam->inReadPos = 0; |
| pam->inWritePos = 0; |
| pam->outReadPos = 0; |
| pam->outWritePos = 0; |
| pam->needMoreInput = 0; |
| pam->procState = 0; |
| |
| /*----------------------------------------------------------------- |
| * MANAGE INTERNAL INITIALIZATION |
| ------------------------------------------------------------------*/ |
| /*init the syllable structure*/ |
| for (nI = 0; nI < PICOPAM_MAX_SYLL_PER_SENT; nI++) |
| for (nJ = 0; nJ < PICOPAM_VECT_SIZE; nJ++) |
| pam->sSyllFeats[nI].phoneV[nJ] = 0; |
| |
| for (nI = 0; nI < PICOPAM_MAX_PH_PER_SENT; nI++) |
| pam->sPhIds[nI] = 0; |
| |
| for (nI = 0; nI < PICOPAM_VECT_SIZE; nI++) |
| pam->sPhFeats[nI] = 0; |
| |
| for (nI = 0; nI < PICOPAM_MAX_ITEM_SIZE_PER_SENT; nI++) |
| pam->sSyllItems[nI] = 0; |
| |
| for (nI = 0; nI < PICOPAM_MAX_ITEM_PER_SENT; nI++) |
| pam->sSyllItemOffs[nI] = 0; |
| |
| /*Other variables*/ |
| pam_reset_processors(this); |
| pam->nLastAttachedItemId = pam->nCurrAttachedItem = 0; |
| pam->nAttachedItemsSize = 0; |
| |
| /*pitch and duration modifiers*/ |
| pam->pMod = 1.0f; |
| pam->dMod = 1.0f; |
| pam->dRest = 0.0f; |
| |
| |
| /* constant tables */ |
| { |
| picoos_uint8 i, j; |
| picoos_uint16 tmp_weights[PICOPAM_PWIDX_SIZE][PICOPAM_MAX_STATES_PER_PHONE] = { |
| {10, 10, 10, 10, 1 }, /*SBEG*/ |
| { 1, 4, 8, 4, 1 }, /*PHR1*/ |
| { 1, 4, 8, 4, 1 }, /*PHR2*/ |
| { 1, 10, 10, 10, 10 },/*SEND*/ |
| { 1, 1, 1, 1, 1 } /*DEFAULT*/ |
| }; |
| for (i = 0; i < PICOPAM_PWIDX_SIZE; i++) { |
| for (j = 0; j < PICOPAM_PWIDX_SIZE; j++) { |
| pam->sil_weights[j][j] = tmp_weights[i][j]; |
| } |
| } |
| } |
| /*----------------------------------------------------------------- |
| * MANAGE LINGWARE INITIALIZATION IF NEEDED |
| ------------------------------------------------------------------*/ |
| /* kb dtdur */ |
| pam->dtdur = picokdt_getDtPAM(this->voice->kbArray[PICOKNOW_KBID_DT_DUR]); |
| if (pam->dtdur == NULL) { |
| picoos_emRaiseException(this->common->em, PICO_EXC_KB_MISSING, NULL, |
| NULL); |
| return PICO_ERR_OTHER; |
| }PICODBG_DEBUG(("got dtdur")); |
| |
| /* kb dtlfz* */ |
| pam->dtlfz[0] = picokdt_getDtPAM( |
| this->voice->kbArray[PICOKNOW_KBID_DT_LFZ1]); |
| pam->dtlfz[1] = picokdt_getDtPAM( |
| this->voice->kbArray[PICOKNOW_KBID_DT_LFZ2]); |
| pam->dtlfz[2] = picokdt_getDtPAM( |
| this->voice->kbArray[PICOKNOW_KBID_DT_LFZ3]); |
| pam->dtlfz[3] = picokdt_getDtPAM( |
| this->voice->kbArray[PICOKNOW_KBID_DT_LFZ4]); |
| pam->dtlfz[4] = picokdt_getDtPAM( |
| this->voice->kbArray[PICOKNOW_KBID_DT_LFZ5]); |
| for (nI = 0; nI < PICOPAM_DT_NRLFZ; nI++) { |
| if (pam->dtlfz[nI] == NULL) { |
| picoos_emRaiseException(this->common->em, PICO_EXC_KB_MISSING, |
| NULL, NULL); |
| return PICO_ERR_OTHER; |
| }PICODBG_DEBUG(("got dtlfz%d", nI+1)); |
| } |
| |
| /* kb dtmgc* */ |
| pam->dtmgc[0] = picokdt_getDtPAM( |
| this->voice->kbArray[PICOKNOW_KBID_DT_MGC1]); |
| pam->dtmgc[1] = picokdt_getDtPAM( |
| this->voice->kbArray[PICOKNOW_KBID_DT_MGC2]); |
| pam->dtmgc[2] = picokdt_getDtPAM( |
| this->voice->kbArray[PICOKNOW_KBID_DT_MGC3]); |
| pam->dtmgc[3] = picokdt_getDtPAM( |
| this->voice->kbArray[PICOKNOW_KBID_DT_MGC4]); |
| pam->dtmgc[4] = picokdt_getDtPAM( |
| this->voice->kbArray[PICOKNOW_KBID_DT_MGC5]); |
| for (nI = 0; nI < PICOPAM_DT_NRMGC; nI++) { |
| if (pam->dtmgc[nI] == NULL) { |
| picoos_emRaiseException(this->common->em, PICO_EXC_KB_MISSING, |
| NULL, NULL); |
| return PICO_ERR_OTHER; |
| }PICODBG_DEBUG(("got dtmgc%d", nI+1)); |
| } |
| |
| /* kb pdfdur* */ |
| pam->pdfdur = picokpdf_getPdfDUR( |
| this->voice->kbArray[PICOKNOW_KBID_PDF_DUR]); |
| if (pam->pdfdur == NULL) { |
| picoos_emRaiseException(this->common->em, PICO_EXC_KB_MISSING, NULL, |
| NULL); |
| return PICO_ERR_OTHER; |
| }PICODBG_DEBUG(("got pdfdur")); |
| |
| /* kb pdflfz* */ |
| pam->pdflfz = picokpdf_getPdfMUL( |
| this->voice->kbArray[PICOKNOW_KBID_PDF_LFZ]); |
| if (pam->pdflfz == NULL) { |
| picoos_emRaiseException(this->common->em, PICO_EXC_KB_MISSING, NULL, |
| NULL); |
| return PICO_ERR_OTHER; |
| }PICODBG_DEBUG(("got pdflfz")); |
| |
| /* kb tabphones */ |
| pam->tabphones = picoktab_getPhones( |
| this->voice->kbArray[PICOKNOW_KBID_TAB_PHONES]); |
| if (pam->tabphones == NULL) { |
| picoos_emRaiseException(this->common->em, PICO_EXC_KB_MISSING, NULL, |
| NULL); |
| return PICO_ERR_OTHER; |
| }PICODBG_DEBUG(("got tabphones")); |
| |
| return PICO_OK; |
| }/*pam_initialize*/ |
| |
| /** |
| * termination of a pam PU |
| * @param this : handle to a pam PU struct |
| * @return PICO_OK |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t pam_terminate(register picodata_ProcessingUnit this) |
| { |
| |
| pam_subobj_t *pam; |
| |
| if (NULL == this || NULL == this->subObj) { |
| return PICO_ERR_OTHER; |
| } |
| pam = (pam_subobj_t *) this->subObj; |
| |
| return PICO_OK; |
| }/*pam_terminate*/ |
| |
| /** |
| * deallocaton of a pam PU |
| * @param this : handle to a pam PU struct |
| * @param mm : engine memory manager |
| * @return PICO_OK |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t pam_subobj_deallocate(register picodata_ProcessingUnit this, |
| picoos_MemoryManager mm) |
| { |
| |
| pam_subobj_t* pam; |
| |
| if (NULL != this) { |
| pam = (pam_subobj_t *) this->subObj; |
| mm = mm; /* avoid warning "var not used in this function"*/ |
| /*----------------------------------------------------------------- |
| * Memory de-allocations |
| * ------------------------------------------------------------------*/ |
| if (pam->sSyllFeats != NULL) { |
| picoos_deallocate(this->common->mm, (void *) &pam->sSyllFeats); |
| } |
| if (pam->sPhIds != NULL) { |
| picoos_deallocate(this->common->mm, (void *) &pam->sPhIds); |
| } |
| if (pam->sPhFeats != NULL) { |
| picoos_deallocate(this->common->mm, (void *) &pam->sPhFeats); |
| } |
| if (pam->sSyllItems != NULL) { |
| picoos_deallocate(this->common->mm, (void *) &pam->sSyllItems); |
| } |
| if (pam->sSyllItemOffs != NULL) { |
| picoos_deallocate(this->common->mm, (void *) &pam->sSyllItemOffs); |
| } |
| picoos_deallocate(this->common->mm, (void *) &this->subObj); |
| } |
| |
| return PICO_OK; |
| }/*pam_subobj_deallocate*/ |
| |
| /** |
| * creates a new pam processing unit |
| * @param mm : engine memory manager |
| * @param common : engine common object pointer |
| * @param cbIn : pointer to input buffer |
| * @param cbOut : pointer to output buffer |
| * @param voice : pointer to voice structure |
| * @return this : pam PU handle if success |
| * @return NULL : if error |
| * @callgraph |
| * @callergraph |
| */ |
| picodata_ProcessingUnit picopam_newPamUnit(picoos_MemoryManager mm, |
| picoos_Common common, picodata_CharBuffer cbIn, |
| picodata_CharBuffer cbOut, picorsrc_Voice voice) |
| { |
| |
| register pam_subobj_t * pam; |
| |
| picodata_ProcessingUnit this = picodata_newProcessingUnit(mm, common, cbIn, |
| cbOut, voice); |
| if (this == NULL) { |
| return NULL; |
| } |
| this->initialize = pam_initialize; |
| |
| PICODBG_DEBUG(("picotok_newPamUnit -- set this->step to pam_step")); |
| |
| this->step = pam_step; |
| this->terminate = pam_terminate; |
| this->subDeallocate = pam_subobj_deallocate; |
| this->subObj = picoos_allocate(mm, sizeof(pam_subobj_t)); |
| if (this->subObj == NULL) { |
| PICODBG_ERROR(("Error in Pam Object allocation")); |
| picoos_deallocate(mm, (void*) &this); |
| return NULL; |
| }; |
| |
| /*----------------------------------------------------------------- |
| * Allocate internal memory for PAM (only at PU creation time) |
| * ------------------------------------------------------------------*/ |
| pam = (pam_subobj_t *) this->subObj; |
| if (PICO_OK != pam_allocate(mm, pam)) { |
| PICODBG_ERROR(("Error in Pam buffers Allocation")); |
| picoos_deallocate(mm, (void *) &this->subObj); |
| picoos_deallocate(mm, (void *) &this); |
| return NULL; |
| } |
| |
| /*----------------------------------------------------------------- |
| * Initialize memory for PAM (this may be re-used elsewhere, e.g.Reset) |
| * ------------------------------------------------------------------*/ |
| if (PICO_OK != pam_initialize(this)) { |
| PICODBG_ERROR(("problem initializing the pam sub-object")); |
| } |
| return this; |
| }/*picopam_newPamUnit*/ |
| |
| /*------------------------------------------------------------------------------- |
| PROCESSING AND INTERNAL FUNCTIONS |
| --------------------------------------------------------------------------------*/ |
| |
| /** |
| * initializes default duration limits for boundary items |
| * @param uBoundType : type of input boundary type |
| * @param *uMinDur, *uMaxDur : addresses of values to initialize |
| * @return void |
| * @remarks so far initializes to 0 both values; this will leave the values given by tree prediction |
| * @callgraph |
| * @callergraph |
| */ |
| static void get_default_boundary_limit(picoos_uint8 uBoundType, |
| picoos_uint16 *uMinDur, picoos_uint16 *uMaxDur) |
| { |
| switch (uBoundType) { |
| case PICODATA_ITEMINFO1_BOUND_SBEG: |
| *uMinDur = 0; |
| *uMaxDur = 20; |
| break; |
| case PICODATA_ITEMINFO1_BOUND_SEND: |
| *uMinDur = 550; |
| *uMaxDur = 650; |
| break; |
| case PICODATA_ITEMINFO1_BOUND_TERM: |
| *uMinDur = 0; |
| *uMaxDur = 0; |
| break; |
| case PICODATA_ITEMINFO1_BOUND_PHR0: |
| *uMinDur = 0; |
| *uMaxDur = 0; |
| break; |
| case PICODATA_ITEMINFO1_BOUND_PHR1: |
| *uMinDur = 275; |
| *uMaxDur = 325; |
| break; |
| case PICODATA_ITEMINFO1_BOUND_PHR2: |
| *uMinDur = 4; |
| *uMaxDur = 60; |
| break; |
| case PICODATA_ITEMINFO1_BOUND_PHR3: |
| *uMinDur = 0; |
| *uMaxDur = 0; |
| break; |
| default: |
| break; |
| } |
| |
| }/*get_default_boundary_limit*/ |
| |
| /** |
| * checks if "neededSize" is available on "nCurrPhoneme" |
| * @param pam : pam subobj |
| * @param neededSize : the requested size |
| * @return PICO_OK : size is available |
| * @return !=PICO_OK : size not available |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t check_phones_size(pam_subobj_t *pam, |
| picoos_int16 neededSize) |
| { |
| if ((pam->nCurrPhoneme + neededSize) > PICOPAM_MAX_PH_PER_SENT - 1) { |
| return PICO_ERR_OTHER; |
| } |
| return PICO_OK; |
| }/*check_phones_size*/ |
| |
| /** |
| * checks if neededSize is available on "nCurrSyllable" |
| * @param pam : pam subobj |
| * @param neededSize : the requested size |
| * @return PICO_OK : size is available |
| * @return !=PICO_OK : size not available |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t check_syllables_size(pam_subobj_t *pam, |
| picoos_int16 neededSize) |
| { |
| if ((pam->nCurrSyllable + neededSize) > PICOPAM_MAX_SYLL_PER_SENT - 1) { |
| return PICO_ERR_OTHER; |
| } |
| return PICO_OK; |
| }/*check_syllables_size*/ |
| |
| /** |
| * verifies that local storage has enough space to receive 1 item |
| * @param this : pointer to current PU struct |
| * @param item : pointer to current item head |
| * @return TRUE : resource limits would be reached during processing of input item |
| * @return FALSE : item could be processed normally |
| * @remarks item pointed to by *item should be already valid |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t pamCheckResourceLimits( |
| register picodata_ProcessingUnit this, const picoos_uint8 *item) |
| { |
| register pam_subobj_t * pam; |
| picodata_itemhead_t head; |
| pico_status_t sResult; |
| if (NULL == this || NULL == this->subObj) { |
| return PICODATA_PU_ERROR; |
| } |
| pam = (pam_subobj_t *) this->subObj; |
| sResult = TRUE; /*default : resource limits reached*/ |
| head.type = item[0]; |
| head.info1 = item[1]; |
| head.info2 = item[2]; |
| head.len = item[3]; |
| |
| switch (head.type) { |
| /*commands that generate syllables/phonemes*/ |
| case PICODATA_ITEM_SYLLPHON: |
| if (pam->nCurrSyllable >= PICOPAM_MAX_SYLL_PER_SENT - 2) { |
| return sResult; /*no room for more syllables*/ |
| } |
| if ((pam->nCurrPhoneme + head.len) >= PICOPAM_MAX_PH_PER_SENT - 2) { |
| return sResult; /*no room for more phoneme*/ |
| } |
| break; |
| case PICODATA_ITEM_BOUND: |
| if ((head.info1 == PICODATA_ITEMINFO1_BOUND_SBEG) || (head.info1 |
| == PICODATA_ITEMINFO1_BOUND_SEND) || (head.info1 |
| == PICODATA_ITEMINFO1_BOUND_TERM) || (head.info1 |
| == PICODATA_ITEMINFO1_BOUND_PHR1) |
| #ifdef PAM_PHR2_WITH_PR1 |
| || (head.info1 == PICODATA_ITEMINFO1_BOUND_PHR2) |
| #endif |
| ) { |
| |
| if (pam->nCurrSyllable >= PICOPAM_MAX_SYLL_PER_SENT - 2) { |
| return sResult; /*no room for more syllables*/ |
| } |
| if ((pam->nCurrPhoneme + 1) >= PICOPAM_MAX_PH_PER_SENT - 2) { |
| return sResult; /*no room for more phoneme*/ |
| } |
| } |
| break; |
| |
| default: |
| /*all other commands has to be queued*/ |
| if ((pam->nAttachedItemsSize + head.len) |
| >= PICOPAM_MAX_ITEM_SIZE_PER_SENT - 1) { |
| return sResult; /*no room for more items*/ |
| } |
| break; |
| } |
| return FALSE; /*no resource limits apply to current item*/ |
| } /*pamCheckResourceLimits*/ |
| |
| /** |
| * selects items to be sent to next PU immedately |
| * @param this : pointer to current PU struct |
| * @param item : pointer to current item head |
| * @return TRUE : item should be passed on next PU NOW |
| * @return FALSE : item should not be passed on next PU now but should be processed |
| * @remarks item pointed to by *item should be already valid |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t pam_check_immediate(register picodata_ProcessingUnit this, |
| const picoos_uint8 *item) |
| { |
| register pam_subobj_t * pam; |
| if (NULL == this || NULL == this->subObj) { |
| return PICODATA_PU_ERROR; |
| } |
| pam = (pam_subobj_t *) this->subObj; |
| |
| if (pam->nCurrSyllable <= -1) { |
| if (item[0] == PICODATA_ITEM_SYLLPHON) |
| return FALSE; |
| if ((item[0] == PICODATA_ITEM_BOUND) && (item[1] |
| == PICODATA_ITEMINFO1_BOUND_SBEG)) |
| return FALSE; |
| if (is_pam_command((picoos_uint8 *) item) == TRUE) |
| return FALSE; |
| return TRUE; /*no need to process data : send it*/ |
| } |
| return FALSE; /*syllable struct not void : do standard processing*/ |
| |
| } /*pam_check_immediate*/ |
| |
| /** |
| * checks if the input item has to be queued in local storage for later resynch |
| * @param this : pointer to current PU struct |
| * @param item : pointer to current item head |
| * @return TRUE : item should be queued |
| * @return FALSE : item should not be queued |
| * @remarks item pointed to by *item should be already valid |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t pam_hastobe_queued(register picodata_ProcessingUnit this, |
| const picoos_uint8 *item) |
| { |
| register pam_subobj_t * pam; |
| picodata_itemhead_t head; |
| if (NULL == this || NULL == this->subObj) { |
| return PICODATA_PU_ERROR; |
| } |
| pam = (pam_subobj_t *) this->subObj; |
| head.type = item[0]; |
| head.info1 = item[1]; |
| |
| switch (head.type) { |
| /*commands that generate syllables/phonemes*/ |
| case PICODATA_ITEM_SYLLPHON: |
| return FALSE; /*no queue needed*/ |
| break; |
| case PICODATA_ITEM_BOUND: |
| if ((head.info1 == PICODATA_ITEMINFO1_BOUND_PHR3) |
| #ifdef PAM_PHR2_WITH_PR3 |
| ||(head.info1==PICODATA_ITEMINFO1_BOUND_PHR2) |
| #endif |
| || (head.info1 == PICODATA_ITEMINFO1_BOUND_PHR0)) { |
| return FALSE; /*no queue needed*/ |
| } |
| break; |
| |
| default: |
| /*all other items has to be queued*/ |
| break; |
| } |
| return TRUE; /*item has to be queued*/ |
| } /*pam_hastobe_queued*/ |
| |
| /** |
| * queue item in local storage for later resynch |
| * @param this : pointer to current PU struct |
| * @param item : pointer to current item head |
| * @return TRUE : item queued |
| * @return FALSE : item not queued because of errors |
| * @remarks item pointed to by *item should be already valid |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t pam_queue(register picodata_ProcessingUnit this, |
| const picoos_uint8 *item) |
| { |
| register pam_subobj_t * pam; |
| picodata_itemhead_t head; |
| picoos_uint8 nI; |
| pico_status_t sResult; |
| if (NULL == this || NULL == this->subObj) { |
| return PICODATA_PU_ERROR; |
| } |
| pam = (pam_subobj_t *) this->subObj; |
| sResult = TRUE; /*default : item queued*/ |
| head.type = item[0]; |
| head.info1 = item[1]; |
| head.info2 = item[2]; |
| head.len = item[3]; |
| |
| /*test condition on enough room to store current item in the "sSyllItems" area*/ |
| if ((pam->nAttachedItemsSize + head.len + sizeof(picodata_itemhead_t)) |
| >= PICOPAM_MAX_ITEM_SIZE_PER_SENT - 1) { |
| return FALSE; /*resource limit reached*/ |
| } |
| /*store current offset*/ |
| pam->sSyllItemOffs[pam->nLastAttachedItemId] = pam->nAttachedItemsSize; |
| /*store the item to the "sSyllItems" area*/ |
| for (nI = 0; nI < (head.len + sizeof(picodata_itemhead_t)); nI++) { |
| pam->sSyllItems[pam->nAttachedItemsSize + nI] = item[nI]; |
| } |
| /*increment the attached items area*/ |
| pam->nAttachedItemsSize += nI; |
| |
| /*increment id*/ |
| pam->nLastAttachedItemId++; |
| /*set start(if not initialized) and end ids of queued items in sSyllFeats*/ |
| if (pam->nCurrSyllable > -1) { |
| /*normal case : the item is attached to current syllable*/ |
| if (pam->sSyllFeats[pam->nCurrSyllable].phoneV[ITM] == 0) { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[ITM] |
| = pam->nLastAttachedItemId; |
| } |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[itm] |
| = pam->nLastAttachedItemId; |
| } else { |
| /*special case : an item is requested to be queued even if no |
| syllables has been assigned to the sentence structure : |
| -->> use syll 0*/ |
| if (pam->sSyllFeats[0].phoneV[ITM] == 0) { |
| pam->sSyllFeats[0].phoneV[ITM] = pam->nLastAttachedItemId; |
| } |
| pam->sSyllFeats[0].phoneV[itm] = pam->nLastAttachedItemId; |
| } |
| return TRUE; /*item queued successfully*/ |
| } /*pam_queue*/ |
| |
| /** |
| * selects items to be dealth with by the PU processing |
| * @param item : pointer to current item head |
| * @return TRUE : item should be processed |
| * @return FALSE : item should not be processed (maybe it ontains commands or items for other PUs) |
| * @remarks item pointed to by *item should be already valid |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t pam_deal_with(const picoos_uint8 *item) |
| { |
| picodata_itemhead_t head; |
| pico_status_t sResult; |
| sResult = FALSE; |
| head.type = item[0]; |
| head.info1 = item[1]; |
| head.info2 = item[2]; |
| head.len = item[3]; |
| switch (head.type) { |
| case PICODATA_ITEM_SYLLPHON: |
| case PICODATA_ITEM_BOUND: |
| sResult = TRUE; |
| break; |
| default: |
| break; |
| } |
| return sResult; |
| } /*pam_deal_with*/ |
| |
| /** |
| * returns true if more items has to be produced for current syllable |
| * @param this : Pam object pointer |
| * @return TRUE : item is to be produced |
| * @return FALSE : item is not to be produced |
| * @remarks item pointed to by *item should be already valid |
| * @callgraph |
| * @callergraph |
| */ |
| static picoos_uint8 pamHasToProcess(register picodata_ProcessingUnit this) |
| { |
| register pam_subobj_t * pam; |
| picoos_uint8 nCond1, nCond2, nCond3; |
| |
| if (NULL == this || NULL == this->subObj) { |
| return PICODATA_PU_ERROR; |
| } |
| pam = (pam_subobj_t *) this->subObj; |
| /*conditions originating a "NOT to be processed" result */ |
| nCond1 = pam->nCurrSyllable <= -1; |
| nCond2 = pam->nCurrSyllable >= pam->nTotalSyllables; |
| nCond3 = pam->nSyllPhoneme |
| >= pam->sSyllFeats[pam->nCurrSyllable].phoneV[B3]; |
| |
| if ((nCond1) || (nCond2) || (nCond3)) |
| return FALSE; |
| |
| return TRUE; |
| } /*pamHasToProcess*/ |
| |
| /** |
| * modifies the process flags in order to point to next valid syllable phone or item to be produced |
| * @param this : Pam object pointer |
| * @return TRUE : item has to be produced |
| * @return FALSE : item has not to be produced |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t pamUpdateProcess(register picodata_ProcessingUnit this) |
| { |
| register pam_subobj_t * pam; |
| |
| if (NULL == this || NULL == this->subObj) { |
| return PICODATA_PU_ERROR; |
| } |
| pam = (pam_subobj_t *) this->subObj; |
| |
| if (pam->nCurrSyllable == -1) { |
| /*this to be able to manage sudden PU cleanup after FLUSH CMD*/ |
| return PICO_OK; |
| } |
| /*check number of phonemes for current syllable*/ |
| if (pam->nSyllPhoneme < pam->sSyllFeats[pam->nCurrSyllable].phoneV[B3] - 1) { |
| pam->nSyllPhoneme++; |
| return PICO_OK; |
| } |
| if (pam->nSyllPhoneme == pam->sSyllFeats[pam->nCurrSyllable].phoneV[B3] - 1) { |
| /*this helps in identifyng the end of syllable condition in PamHasToProcess*/ |
| pam->nSyllPhoneme++; |
| } |
| /*previous syllable phonemes are complete: test if any items are tied to this syllable*/ |
| if (pam->sSyllFeats[pam->nCurrSyllable].phoneV[ITM] > 0) { |
| /*there are items tied to this syllable*/ |
| if (pam->nCurrAttachedItem == 0) { |
| /*if it is the first item to be regenerated initialize it*/ |
| pam->nCurrAttachedItem |
| = pam->sSyllFeats[pam->nCurrSyllable].phoneV[ITM]; |
| return PICO_OK; |
| } else { |
| /*not the first item : check if more*/ |
| if (pam->nCurrAttachedItem |
| < pam->sSyllFeats[pam->nCurrSyllable].phoneV[itm]) { |
| /*more tied items to be regenerated*/ |
| pam->nCurrAttachedItem++; |
| return PICO_OK; |
| } |
| } |
| } |
| /*previous syllable phonemes and items are complete: switch to next syllable*/ |
| if (pam->nCurrSyllable < pam->nTotalSyllables - 1) { |
| pam->nCurrSyllable++; |
| pam->nSyllPhoneme = 0; |
| pam->nCurrAttachedItem = 0; |
| return PICO_OK; |
| } |
| /*no more phonemes or items to be produced*/ |
| pam->nCurrSyllable++; |
| pam->nSyllPhoneme = 0; |
| return PICO_ERR_OTHER; |
| |
| } /*pamUpdateProcess*/ |
| |
| /** |
| * returns true if more items has to be popped for current syllable |
| * @param this : Pam object pointer |
| * @return TRUE : item has to be popped |
| * @return FALSE : item has not to be popped |
| * @callgraph |
| * @callergraph |
| */ |
| static picoos_uint8 pamHasToPop(register picodata_ProcessingUnit this) |
| { |
| register pam_subobj_t * pam; |
| |
| if (NULL == this || NULL == this->subObj) { |
| return PICODATA_PU_ERROR; |
| } |
| pam = (pam_subobj_t *) this->subObj; |
| |
| /*Preliminary condition : at least 1 syllable*/ |
| if (pam->nCurrSyllable <= -1) |
| return FALSE; |
| |
| /*Preliminary condition : not maximum number of syllables*/ |
| if (pam->nCurrSyllable >= pam->nTotalSyllables) |
| return FALSE; |
| |
| /*Preliminary condition : start and end offset in current item > 0 */ |
| if ((pam->sSyllFeats[pam->nCurrSyllable].phoneV[ITM] <= 0) |
| || (pam->sSyllFeats[pam->nCurrSyllable].phoneV[itm] <= 0)) |
| return FALSE; |
| |
| /*Final condition : current popped item less or eq to maximum*/ |
| if (pam->nCurrAttachedItem |
| > pam->sSyllFeats[pam->nCurrSyllable].phoneV[itm]) |
| return FALSE; |
| |
| return TRUE; |
| } /*pamHasToPop*/ |
| |
| /** |
| * returns the address of an item to be popped from the current syllable queue |
| * @param this : Pam object pointer |
| * @return pop_address : item address |
| * @return NULL : item not poppable |
| * @callgraph |
| * @callergraph |
| */ |
| static picoos_uint8 *pamPopItem(register picodata_ProcessingUnit this) |
| { |
| register pam_subobj_t * pam; |
| picoos_uint8 nItem; |
| if (NULL == this || NULL == this->subObj) { |
| return NULL; |
| } |
| pam = (pam_subobj_t *) this->subObj; |
| |
| /*Preliminary condition : at least 1 syllable*/ |
| if (pam->nCurrSyllable <= -1) |
| return NULL; |
| |
| /*Preliminary condition : not maximum number of syllables*/ |
| if (pam->nCurrSyllable >= pam->nTotalSyllables) |
| return NULL; |
| |
| /*Preliminary condition : start and end offset in current item > 0 */ |
| if ((pam->sSyllFeats[pam->nCurrSyllable].phoneV[ITM] <= 0) |
| || (pam->sSyllFeats[pam->nCurrSyllable].phoneV[itm] <= 0)) |
| return NULL; |
| |
| /*Final condition : current popped item less than maximum*/ |
| if (pam->nCurrAttachedItem |
| > pam->sSyllFeats[pam->nCurrSyllable].phoneV[itm]) |
| return NULL; |
| |
| nItem = pam->nCurrAttachedItem; |
| /*please note : nItem-1 should match with actions performed in function "pam_queue(..)" */ |
| return &(pam->sSyllItems[pam->sSyllItemOffs[nItem - 1]]); |
| |
| } /*pamPopItem*/ |
| |
| /** |
| * returns the address of an item popped from the syllable 0 queue |
| * @param this : Pam object pointer |
| * @return pop_address : item address |
| * @return NULL : item not poppable |
| * @remarks the item is popped only if it has been inserted in the queue before the first |
| * @remarks item assigned to the syllable 0 i.e. |
| * @remarks AttachedItem<=pam->sSyllFeats[pam->nCurrSyllable].phoneV[itm]-1 |
| * @callgraph |
| * @callergraph |
| */ |
| static picoos_uint8 *pamPopAttachedSy0(register picodata_ProcessingUnit this) |
| { |
| register pam_subobj_t * pam; |
| picoos_uint8 nItem; |
| if (NULL == this || NULL == this->subObj) { |
| return NULL; |
| } |
| pam = (pam_subobj_t *) this->subObj; |
| |
| /*should be syllable 0*/ |
| if (pam->nCurrSyllable != 0) |
| return NULL; |
| |
| /*start and end offset in current item > 0 */ |
| if ((pam->sSyllFeats[pam->nCurrSyllable].phoneV[ITM] <= 0) |
| || (pam->sSyllFeats[pam->nCurrSyllable].phoneV[itm] <= 0)) |
| return NULL; |
| |
| /*if current popped item is > 0 test end condition*/ |
| if (pam->nCurrAttachedItem > 0) { |
| /*Other condition : current popped item less than maximum*/ |
| if (pam->nCurrAttachedItem |
| > pam->sSyllFeats[pam->nCurrSyllable].phoneV[itm] - 1) |
| return NULL; |
| } |
| nItem = pam->nCurrAttachedItem; |
| return &(pam->sSyllItems[pam->sSyllItemOffs[nItem]]); |
| |
| } /*pamPopAttachedSy0*/ |
| |
| /** |
| * pdf access for duration |
| * @param this : Pam object pointer |
| * @param durIndex : index of duration in the pdf |
| * @param phonDur : pointer to base of array where to store the duration values |
| * @param numFramesState : pointer to base of array where to store the number of frames per state |
| * @return PICO_OK : pdf retrieved |
| * @return PICO_ERR_OTHER : pdf not retrieved |
| * @remarks Modifies phonDur (the requested duration value) |
| * @remarks Modifies numFramesState (the requested number of frames per state (vector)) |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t pam_get_duration(register picodata_ProcessingUnit this, |
| picoos_uint16 durIndex, picoos_uint16 *phonDur, |
| picoos_uint8 *numFramesState) |
| { |
| pam_subobj_t *pam; |
| picokpdf_PdfDUR pdf; |
| picoos_uint8 *durItem; |
| picoos_uint16 nFrameSize, nI; |
| picoos_single fValue; |
| pam = (pam_subobj_t *) this->subObj; |
| if (NULL == this || NULL == this->subObj) { |
| return PICODATA_PU_ERROR; |
| } |
| pdf = pam->pdfdur; |
| /*make the index 0 based*/ |
| if (durIndex > 0) |
| durIndex--; |
| |
| /* check */ |
| if (durIndex > pdf->numframes - 1) { |
| PICODBG_ERROR(("PAM durPdf access error, index overflow -> index: %d , numframes: %d", durIndex, pdf->numframes)); |
| return PICO_ERR_OTHER; |
| } |
| /* base pointer */ |
| durItem = &(pdf->content[durIndex * pdf->vecsize]); |
| if (durItem == NULL) { |
| PICODBG_ERROR(("PAM durPdf access error , frame pointer = NULL")); |
| return PICO_ERR_OTHER; |
| } |
| nFrameSize = pdf->sampperframe / 16; |
| *phonDur = ((pdf->phonquant[((*durItem) & 0xF0) >> 4]) * nFrameSize); |
| numFramesState[0] = pdf->statequant[((*durItem) & 0x0F)]; |
| durItem++; |
| numFramesState[1] = pdf->statequant[((*durItem) & 0xF0) >> 4]; |
| numFramesState[2] = pdf->statequant[((*durItem) & 0x0F)]; |
| durItem++; |
| numFramesState[3] = pdf->statequant[((*durItem) & 0xF0) >> 4]; |
| numFramesState[4] = pdf->statequant[((*durItem) & 0x0F)]; |
| |
| /*modification of the duration information based on the duration modifier*/ |
| *phonDur = (picoos_uint16) (((picoos_single) * phonDur) * pam->dMod); |
| for (nI = 0; nI < 5; nI++) { |
| fValue = pam->dRest + (picoos_single) numFramesState[nI] * pam->dMod; |
| numFramesState[nI] = (picoos_uint8) (fValue); |
| pam->dRest = fValue - (picoos_single) numFramesState[nI]; |
| } |
| return PICO_OK; |
| }/*pam_get_duration*/ |
| |
| /** |
| * pdf access for pitch |
| * @param this : Pam object pointer |
| * @param lf0Index : pointer to variable to receive index of pitch in the pdf |
| * @param nI : number of the phone's state |
| * @param phonF0 : pointer to variable to receive the pitch value |
| * @return PICO_OK : pdf retrieved |
| * @return PICO_ERR_OTHER : pdf not retrieved |
| * @remarks Modifies phonDur (the requested duration value) |
| * @remarks Modifies phonF0 (the requested pitch value (scalar)) |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t pam_get_f0(register picodata_ProcessingUnit this, |
| picoos_uint16 *lf0Index, picoos_uint8 nI, picoos_single *phonF0) |
| { |
| pam_subobj_t *pam; |
| picoos_uint8 *lfItem, numstreams; |
| picoos_uint16 lf0IndexOffset, sTemp; |
| picoos_single lfum, lfivar, lfz; |
| |
| pam = (pam_subobj_t *) this->subObj; |
| if (NULL == this || NULL == this->subObj) { |
| return PICODATA_PU_ERROR; |
| } |
| lf0IndexOffset = lf0Index[nI]; |
| |
| /*make the index 0 based*/ |
| if (lf0IndexOffset > 0) |
| lf0IndexOffset--; |
| |
| lf0IndexOffset += pam->pdflfz->stateoffset[nI]; |
| if (lf0IndexOffset > pam->pdflfz->numframes - 1) { |
| PICODBG_ERROR(("PAM flfzPdf access error, index overflow -> index: %d , numframes: %d", lf0Index, pam->pdflfz->numframes)); |
| return PICO_ERR_OTHER; |
| } |
| /* base pointer */ |
| lf0IndexOffset *= pam->pdflfz->vecsize; |
| |
| lfItem = &(pam->pdflfz->content[lf0IndexOffset]); |
| sTemp = (picoos_uint16) (((lfItem[1] << 8)) | lfItem[0]); |
| |
| lfum = (picoos_single) (sTemp << (pam->pdflfz->meanpowUm[0])); |
| numstreams = 3; |
| lfivar = (picoos_single) (((picoos_uint16) lfItem[numstreams * 2]) |
| << pam->pdflfz->ivarpow[0]); |
| lfz = (picoos_single) lfum / (picoos_single) lfivar; |
| lfz = (picoos_single) exp((double) lfz); |
| phonF0[nI] = (picoos_single) lfz; |
| |
| /*pitch modoification*/ |
| phonF0[nI] *= pam->pMod; |
| return PICO_OK; |
| }/*pam_get_f0*/ |
| |
| /** |
| * elementary rounding function |
| * @param fIn : (real) input value |
| * @return the rounded value |
| * @callgraph |
| * @callergraph |
| */ |
| static picoos_single f_round(picoos_single fIn) |
| { |
| picoos_int32 iVal; |
| picoos_single fVal; |
| |
| iVal = (picoos_int32) fIn; |
| fVal = (picoos_single) iVal; |
| |
| if (fIn > (picoos_single) 0.0f) { |
| if ((fIn - fVal) < (picoos_single) 0.5f) |
| return fVal; |
| else |
| return fVal + (picoos_single) 1.0f; |
| } else { |
| if ((fVal - fIn) < (picoos_single) 0.5f) |
| return fVal; |
| else |
| return fVal - (picoos_single) 1.0f; |
| } |
| }/*f_round*/ |
| |
| /** |
| * updates the input vector for PAM |
| * @param this : Pam object pointer |
| * @return PICO_OK : update successful |
| * @return PICO_ERR_OTHER : errors on retrieving the PU pointer |
| * @remarks Modifies pam->sPhFeats[] |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t pam_update_vector(register picodata_ProcessingUnit this) |
| { |
| pam_subobj_t *pam; |
| picoos_uint8 numstates, nI; |
| picoos_single fDur, f0avg, f0quant, minf0, maxf0, durquant1, durquant2, |
| mindur, maxdur1, maxdur2; |
| |
| pam = (pam_subobj_t *) this->subObj; |
| if (NULL == this || NULL == this->subObj) { |
| return PICO_ERR_OTHER; |
| } |
| /*default init*/ |
| pam->sPhFeats[DUR] = 0; |
| pam->sPhFeats[F0] = 0; |
| /* |
| Hard coded parameters for quantization |
| */ |
| numstates = PICOPAM_NRSTPF; |
| f0quant = 30.0f; |
| minf0 = 90.0f; |
| maxf0 = 360.0f; |
| |
| durquant1 = 20.0f; |
| durquant2 = 100.0f; |
| mindur = 40.0f; |
| maxdur1 = 160.0f; |
| maxdur2 = 600.0f; |
| f0avg = 0.0f; |
| for (nI = 0; nI < numstates; nI++) |
| f0avg += pam->phonF0[nI]; |
| f0avg /= (picoos_single) numstates; |
| |
| f0avg = f_round(f0avg / f0quant) * f0quant; |
| if (f0avg < minf0) |
| f0avg = minf0; |
| if (f0avg > maxf0) |
| f0avg = maxf0; |
| |
| /*make initial silence of sentence shorter (see also pam_put_item)*/ |
| if ((pam->nCurrSyllable == 0) && (pam->nSyllPhoneme == 0)) { |
| pam->phonDur = 2 * 4; |
| } |
| |
| fDur = (picoos_single) pam->phonDur; |
| fDur = f_round(fDur / durquant1) * durquant1; |
| if (fDur < mindur) |
| fDur = mindur; |
| if (fDur > maxdur1) { |
| fDur = f_round(fDur / durquant2) * durquant2; |
| if (fDur > maxdur2) |
| fDur = maxdur2; |
| } |
| pam->sPhFeats[DUR] = (picoos_uint8) (fDur / (picoos_single) 10.0f); |
| pam->sPhFeats[F0] = (picoos_uint8) (f0avg / (picoos_single) 10.0f); |
| |
| return PICO_OK; |
| }/*pam_update_vector*/ |
| |
| /** |
| * compress a single feature in the range 0..9 |
| * @param inVal : the value to be compressed |
| * @return compVal : the compressed value |
| * @callgraph |
| * @callergraph |
| */ |
| static picoos_uint8 pamCompressComponent(picoos_uint8 inVal) |
| { |
| if (inVal <= 5) |
| return inVal; |
| if ((5 < inVal) && (inVal <= 10)) |
| return 6; |
| if ((10 < inVal) && (inVal <= 20)) |
| return 7; |
| if ((20 < inVal) && (inVal <= 30)) |
| return 8; |
| return 9; |
| }/*pamCompressComponent*/ |
| |
| /** |
| * prepares the input vector for tree feeding |
| * @param this : Pam object pointer |
| * @return PICO_OK : vector expanded |
| * @return PICO_ERR_OTHER : errors on expansion or retrieving the PU pointer |
| * @remarks Modifies pam->sPhFeats[] |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t pam_expand_vector(register picodata_ProcessingUnit this) |
| { |
| pam_subobj_t *pam; |
| picoos_uint8 *inVect, *phonVect, *outVect, nI; |
| picoos_int16 nOffs, nOffs1, nLen; |
| pam = (pam_subobj_t *) this->subObj; |
| if (NULL == this || NULL == this->subObj) { |
| return PICODATA_PU_ERROR; |
| } |
| inVect = &(pam->sSyllFeats[pam->nCurrSyllable].phoneV[0]); |
| phonVect = &(pam->sPhIds[0]); |
| outVect = &(pam->sPhFeats[0]); |
| /*just copy back*/ |
| for (nI = 0; nI < PICOPAM_INVEC_SIZE; nI++) |
| outVect[nI] = inVect[nI]; |
| /*now fill missing fields*/ |
| picoos_mem_copy((void*) &(inVect[FID]), &nOffs, sizeof(nOffs)); |
| /*offset to first phone of current syllable*/ |
| nOffs = nOffs + pam->nSyllPhoneme; /*offset to current phone of current syllable*/ |
| nLen = inVect[B3]; /*len of current syllable*/ |
| if (pam->nSyllPhoneme >= nLen) { |
| /*error on addressing current phone*/ |
| return PICO_ERR_OTHER; |
| } |
| /*previous of the previous phone*/ |
| nOffs1 = nOffs - 2; |
| if (nOffs1 >= 0) |
| outVect[P1] = phonVect[nOffs1]; |
| else |
| outVect[P1] = PICOPAM_PH_DONT_CARE_VAL; |
| /*previous phone*/ |
| nOffs1 = nOffs - 1; |
| if (nOffs1 >= 0) |
| outVect[P2] = phonVect[nOffs1]; |
| else |
| outVect[P2] = PICOPAM_PH_DONT_CARE_VAL; |
| /*^current phone*/ |
| outVect[P3] = phonVect[nOffs]; |
| |
| /*next phone*/ |
| nOffs1 = nOffs + 1; |
| if (nOffs1 < pam->nTotalPhonemes) |
| outVect[P4] = phonVect[nOffs1]; |
| else |
| outVect[P4] = PICOPAM_PH_DONT_CARE_VAL; |
| /*next of the next phone*/ |
| nOffs1 = nOffs + 2; |
| if (nOffs1 < pam->nTotalPhonemes) |
| outVect[P5] = phonVect[nOffs1]; |
| else |
| outVect[P5] = PICOPAM_PH_DONT_CARE_VAL; |
| /*pos of curr phone with respect to left syllable boundary*/ |
| outVect[P6] = pam->nSyllPhoneme + 1; |
| /*pos of curr phone with respect to right syllable boundary*/ |
| outVect[P7] = nLen - pam->nSyllPhoneme; |
| /*is current phone in consonant syllable boundary? (1:yes)*/ |
| if (pam->nSyllPhoneme < inVect[P8]) |
| outVect[P8] = 1; |
| else |
| outVect[P8] = 0; |
| return PICO_OK; |
| }/*pam_expand_vector*/ |
| |
| /** |
| * compresses the input vector for PAM |
| * @param this : Pam object pointer |
| * @return PICO_OK : compression successful |
| * @return PICO_ERR_OTHER : errors on retrieving the PU pointer |
| * @remarks Modifies pam->sPhFeats[] |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t pamCompressVector(register picodata_ProcessingUnit this) |
| { |
| pam_subobj_t *pam; |
| picoos_uint8 *outVect, nI; |
| pam = (pam_subobj_t *) this->subObj; |
| if (NULL == this || NULL == this->subObj) { |
| return PICODATA_PU_ERROR; |
| } |
| outVect = &(pam->sPhFeats[0]); |
| for (nI = 0; nI < PICOPAM_INVEC_SIZE; nI++) { |
| switch (nI) { |
| case P1: |
| case P2: |
| case P3: |
| case P4: |
| case P5: |
| case B1: |
| case B2: |
| case B16: |
| case E1: |
| case H5: |
| /*don't do any compression*/ |
| break; |
| default: |
| /*do compression*/ |
| if (outVect[nI] != PICOPAM_DONT_CARE_VALUE) |
| outVect[nI] = pamCompressComponent(outVect[nI]); |
| else |
| outVect[nI] = PICOPAM_DONT_CARE_VAL; |
| break; |
| } |
| } |
| return PICO_OK; |
| }/*pamCompressVector*/ |
| |
| /** |
| * reorganizes the input vector for PAM |
| * @param this : Pam object pointer |
| * @return PICO_OK : reorganization successful |
| * @return PICO_ERR_OTHER : errors on retrieving the PU pointer |
| * @remarks Modifies pam->sPhFeats[] |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t pamReorgVector(register picodata_ProcessingUnit this) |
| { |
| pam_subobj_t *pam; |
| picoos_uint8 *outVect, inVect[60], nI; |
| pam = (pam_subobj_t *) this->subObj; |
| if (NULL == this || NULL == this->subObj) { |
| return PICODATA_PU_ERROR; |
| } |
| outVect = &(pam->sPhFeats[0]); |
| for (nI = 0; nI < PICOPAM_INVEC_SIZE; nI++) inVect[nI] = outVect[nI]; |
| /*reorganize*/ |
| for (nI = T_B1; nI <= T_H5; nI++) { |
| switch (nI) { |
| case T_B1: |
| outVect[T_B1] = inVect[B1]; |
| break; |
| case T_B2: |
| outVect[T_B2] = inVect[B2]; |
| break; |
| case T_B3: |
| outVect[T_B3] = inVect[B3]; |
| break; |
| case T_B4: |
| outVect[T_B4] = inVect[B4]; |
| break; |
| case T_B5: |
| outVect[T_B5] = inVect[B5]; |
| break; |
| case T_B6: |
| outVect[T_B6] = inVect[B6]; |
| break; |
| case T_B7: |
| outVect[T_B7] = inVect[B7]; |
| break; |
| case T_B8: |
| outVect[T_B8] = inVect[B8]; |
| break; |
| case T_B9: |
| outVect[T_B9] = inVect[B9]; |
| break; |
| case T_B10: |
| outVect[T_B10] = inVect[B10]; |
| break; |
| case T_B11: |
| outVect[T_B11] = inVect[B11]; |
| break; |
| case T_B12: |
| outVect[T_B12] = inVect[B12]; |
| break; |
| case T_B13: |
| outVect[T_B13] = inVect[B13]; |
| break; |
| case T_B14: |
| outVect[T_B14] = inVect[B14]; |
| break; |
| case T_B15: |
| outVect[T_B15] = inVect[B15]; |
| break; |
| case T_B16: |
| outVect[T_B16] = inVect[B16]; |
| break; |
| case T_B17: |
| outVect[T_B17] = inVect[B17]; |
| break; |
| case T_B18: |
| outVect[T_B18] = inVect[B18]; |
| break; |
| case T_B19: |
| outVect[T_B19] = inVect[B19]; |
| break; |
| case T_B20: |
| outVect[T_B20] = inVect[B20]; |
| break; |
| case T_B21: |
| outVect[T_B21] = inVect[B21]; |
| break; |
| |
| case T_E1: |
| outVect[T_E1] = inVect[E1]; |
| break; |
| case T_E2: |
| outVect[T_E2] = inVect[E2]; |
| break; |
| case T_E3: |
| outVect[T_E3] = inVect[E3]; |
| break; |
| case T_E4: |
| outVect[T_E4] = inVect[E4]; |
| break; |
| case T_E5: |
| outVect[T_E5] = inVect[E5]; |
| break; |
| case T_E6: |
| outVect[T_E6] = inVect[E6]; |
| break; |
| case T_E7: |
| outVect[T_E7] = inVect[E7]; |
| break; |
| case T_E8: |
| outVect[T_E8] = inVect[E8]; |
| break; |
| case T_E9: |
| outVect[T_E9] = inVect[E9]; |
| break; |
| case T_E10: |
| outVect[T_E10] = inVect[E10]; |
| break; |
| case T_E11: |
| outVect[T_E11] = inVect[E11]; |
| break; |
| case T_E12: |
| outVect[T_E12] = inVect[E12]; |
| break; |
| case T_E13: |
| outVect[T_E13] = inVect[E13]; |
| break; |
| |
| case T_A3: |
| outVect[T_A3] = inVect[A3]; |
| break; |
| case T_C3: |
| outVect[T_C3] = inVect[C3]; |
| break; |
| case T_D2: |
| outVect[T_D2] = inVect[D2]; |
| break; |
| case T_F2: |
| outVect[T_F2] = inVect[F2]; |
| break; |
| |
| case T_G1: |
| outVect[T_G1] = inVect[G1]; |
| break; |
| case T_I1: |
| outVect[T_I1] = inVect[I1]; |
| break; |
| |
| case T_G2: |
| outVect[T_G2] = inVect[G2]; |
| break; |
| case T_I2: |
| outVect[T_I2] = inVect[I2]; |
| break; |
| |
| case T_H1: |
| outVect[T_H1] = inVect[H1]; |
| break; |
| case T_H2: |
| outVect[T_H2] = inVect[H2]; |
| break; |
| case T_H3: |
| outVect[T_H3] = inVect[H3]; |
| break; |
| case T_H4: |
| outVect[T_H4] = inVect[H4]; |
| break; |
| case T_H5: |
| outVect[T_H5] = inVect[H5]; |
| break; |
| } |
| } |
| return PICO_OK; |
| }/*pamReorgVector*/ |
| |
| /** |
| * puts a PAM item into PU output buffer |
| * @param this : Pam object pointer |
| * @param outBuff : output buffer base pointer |
| * @param outWritePos : offset in output buffer |
| * @param *bytesWr : actual bytes written |
| * @return PICO_OK : put successful |
| * @return PICO_ERR_OTHER : errors on retrieving the PU pointer |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t pam_put_item(register picodata_ProcessingUnit this, |
| picoos_uint8 *outBuff, picoos_uint16 outWritePos, picoos_uint8 *bytesWr) |
| { |
| pam_subobj_t *pam; |
| picoos_uint8 *sDest, nI, nType, nIdx, fde; |
| picoos_uint32 pos, pos32; |
| picoos_int16 ft, dt; |
| picoos_uint16 uMinDur, uMaxDur; |
| pam = (pam_subobj_t *) this->subObj; |
| if (NULL == this || NULL == this->subObj) { |
| return PICODATA_PU_ERROR; |
| } |
| sDest = &(outBuff[outWritePos]); |
| sDest[0] = PICODATA_ITEM_PHONE; /*Item type*/ |
| sDest[1] = pam->sPhFeats[P3]; /*phonetic id*/ |
| sDest[2] = PICOPAM_NRSTPF; /*number of states per phone*/ |
| sDest[3] = sizeof(picoos_uint16) * PICOPAM_NRSTPF * 3; /*size of the item*/ |
| pos = 4; |
| /*make initial silence of sentence shorter (see also UpdateVector)*/ |
| if ((pam->nCurrSyllable == 0) && (pam->nSyllPhoneme == 0)) { |
| for (nI = 0; nI < PICOPAM_NRSTPF - 1; nI++) |
| pam->numFramesState[nI] = 0; |
| pam->numFramesState[nI] = 2; |
| } else { |
| /*manage silence syllables with prescribed durations*/ |
| pos32 = Min; |
| picoos_read_mem_pi_uint16(pam->sSyllFeats[pam->nCurrSyllable].phoneV, |
| &pos32, &uMinDur); |
| pos32 = Max; |
| picoos_read_mem_pi_uint16(pam->sSyllFeats[pam->nCurrSyllable].phoneV, |
| &pos32, &uMaxDur); |
| |
| if (uMaxDur > 0) { |
| /* Select weights*/ |
| nType = pam->sSyllFeats[pam->nCurrSyllable].phoneV[bnd]; |
| switch (nType) { |
| case PICODATA_ITEMINFO1_BOUND_SBEG: |
| nIdx = PICOPAM_PWIDX_SBEG; |
| break; |
| case PICODATA_ITEMINFO1_BOUND_PHR1: |
| nIdx = PICOPAM_PWIDX_PHR1; |
| break; |
| case PICODATA_ITEMINFO1_BOUND_PHR2: |
| nIdx = PICOPAM_PWIDX_PHR2; |
| break; |
| case PICODATA_ITEMINFO1_BOUND_SEND: |
| case PICODATA_ITEMINFO1_BOUND_TERM: |
| nIdx = PICOPAM_PWIDX_SEND; |
| break; |
| default: |
| nIdx = PICOPAM_PWIDX_DEFA; |
| break; |
| } |
| fde = 2; |
| ft = 0; |
| dt = 0; |
| picodata_transformDurations( |
| fde, /* 2's exponent of frame duration in ms, e.g. 2 for 4ms, 3 for 8ms */ |
| PICOPAM_NRSTPF, /* number of states per phone */ |
| &(pam->numFramesState[0]), /* estimated durations */ |
| pam->sil_weights[nIdx], /* integer weights */ |
| uMinDur, /* minimum target duration in ms */ |
| uMaxDur, /* maximum target duration in ms */ |
| ft, /* factor to be multiplied to get the target */ |
| &dt /* in/out, rest in ms */ |
| ); |
| } |
| } |
| /*put data*/ |
| for (nI = 0; nI < PICOPAM_NRSTPF; nI++) { |
| picoos_write_mem_pi_uint16(sDest, &pos, |
| (picoos_uint16) pam->numFramesState[nI]); |
| picoos_write_mem_pi_uint16(sDest, &pos, |
| (picoos_uint16) pam->lf0Index[nI]); |
| picoos_write_mem_pi_uint16(sDest, &pos, |
| (picoos_uint16) pam->mgcIndex[nI]); |
| } |
| *bytesWr = sizeof(picodata_itemhead_t) + sizeof(picoos_uint16) |
| * PICOPAM_NRSTPF * 3; |
| return PICO_OK; |
| }/*pam_put_item*/ |
| |
| /** |
| * puts a non PAM (queued) item into PU output buffer |
| * @param qItem : pointer to item to put |
| * @param outBuff : output buffer base pointer |
| * @param outWritePos : offset in output buffer |
| * @param *bytesWr : actual bytes written |
| * @return PICO_OK : put successful |
| * @return PICO_ERR_OTHER : errors on retrieving the PU pointer |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t pam_put_qItem(picoos_uint8 *qItem, picoos_uint8 *outBuff, |
| picoos_uint16 outWritePos, picoos_uint8 *bytesWr) |
| { |
| picoos_uint8 *sDest, nI; |
| sDest = &(outBuff[outWritePos]); |
| *bytesWr = sizeof(picodata_itemhead_t); |
| for (nI = 0; nI < (sizeof(picodata_itemhead_t) + qItem[3]); nI++) { |
| sDest[nI] = qItem[nI]; |
| } |
| *bytesWr = nI; |
| return PICO_OK; |
| }/*pam_put_qItem*/ |
| |
| /** |
| * tells if an item is a PAM command (except play) |
| * @param qItem : input item to test |
| * @return TRUE : qItem is a PAM command (except play) |
| * @return FALSE : qItem not a PAM command |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t is_pam_command(const picoos_uint8 * qItem) |
| { |
| switch (qItem[0]) { |
| |
| case PICODATA_ITEM_CMD: |
| switch (qItem[1]) { |
| case PICODATA_ITEMINFO1_CMD_FLUSH: |
| /* flush is for all PU's and as such it is also for PAM*/ |
| case PICODATA_ITEMINFO1_CMD_PITCH: |
| case PICODATA_ITEMINFO1_CMD_SPEED: |
| return TRUE; |
| break; |
| default: |
| break; |
| } |
| } |
| return FALSE; |
| }/*is_pam_command*/ |
| |
| /** |
| * tells if an item is a PAM PLAY command |
| * @param qItem : input item to test |
| * @return TRUE : qItem is a PAM PLAY command |
| * @return FALSE : qItem not a PAM PLAY command |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t is_pam_play_command(picoos_uint8 *qItem) |
| { |
| switch (qItem[0]) { |
| |
| case PICODATA_ITEM_CMD: |
| switch (qItem[1]) { |
| case PICODATA_ITEMINFO1_CMD_PLAY: |
| if (qItem[2] == PICODATA_ITEMINFO2_CMD_TO_PAM) |
| return TRUE; |
| break; |
| default: |
| break; |
| } |
| } |
| return FALSE; |
| }/*is_pam_play_command*/ |
| |
| /** |
| * command processor for PAM pu |
| * @param this : Pam item subobject |
| * @param qItem : input item pointer |
| * @return PICOPAM_FLUSH_RECEIVED : when a FLUSH is received |
| * @return PICOPAM_CONTINUE : normal command processing |
| * @return PICODATA_PU_ERROR : errors in accessing data |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t pamDoCommand(register picodata_ProcessingUnit this, |
| picoos_uint8 *qItem) |
| { |
| pam_subobj_t *pam; |
| picoos_single fValue; |
| picoos_uint16 nValue; |
| picoos_uint32 nPos; |
| pam = (pam_subobj_t *) this->subObj; |
| if (NULL == this || NULL == this->subObj) { |
| return PICODATA_PU_ERROR; |
| } |
| if (qItem[0] == PICODATA_ITEM_CMD) { |
| switch (qItem[1]) { |
| case PICODATA_ITEMINFO1_CMD_FLUSH: |
| /* flush is for all PU's and as such it is also for PAM : implement the flush!!*/ |
| pam_reset_processors(this); |
| pam->nLastAttachedItemId = pam->nCurrAttachedItem = 0; |
| pam->nAttachedItemsSize = 0; |
| return PICOPAM_FLUSH_RECEIVED; |
| break; |
| |
| case PICODATA_ITEMINFO1_CMD_PITCH: |
| case PICODATA_ITEMINFO1_CMD_SPEED: |
| nPos = 4; |
| picoos_read_mem_pi_uint16(qItem, &nPos, &nValue); |
| if (qItem[2] == 'a') { |
| /*absloute modifier*/ |
| fValue = (picoos_single) nValue / (picoos_single) 100.0f; |
| if (qItem[1] == PICODATA_ITEMINFO1_CMD_PITCH) |
| pam->pMod = fValue; |
| if (qItem[1] == PICODATA_ITEMINFO1_CMD_SPEED) |
| pam->dMod = (1.0f / fValue); |
| } |
| if (qItem[2] == 'r') { |
| /*relative modifier*/ |
| fValue = (picoos_single) nValue / (picoos_single) 1000.0f; |
| if (qItem[1] == PICODATA_ITEMINFO1_CMD_PITCH) |
| pam->pMod *= (1.0f / fValue); |
| if (qItem[1] == PICODATA_ITEMINFO1_CMD_SPEED) |
| pam->dMod *= (1.0f / fValue); |
| } |
| return PICOPAM_CONTINUE; |
| break; |
| |
| default: |
| break; |
| }/*end switch switch (qItem[1])*/ |
| }/*end if (qItem[0]==PICODATA_ITEM_CMD)*/ |
| return PICOPAM_CONTINUE; |
| }/*pamDoCommand*/ |
| |
| /** |
| * defines if an item has to be sent to following PUs |
| * @param qItem : input item pointer |
| * @return TRUE : item has to be transmitted to following PUs |
| * @return FALSE : item has to be consumed internallz on PAM |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t isItemToPut(picoos_uint8 *qItem) |
| { |
| switch (qItem[0]) { |
| case PICODATA_ITEM_CMD: |
| /* is a command*/ |
| if (PICODATA_ITEMINFO1_CMD_SPEED == qItem[1]) { |
| /* SPEED consumed here*/ |
| return FALSE; |
| } |
| break; |
| case PICODATA_ITEM_BOUND: |
| switch (qItem[1]) { |
| case PICODATA_ITEMINFO1_BOUND_SBEG: |
| case PICODATA_ITEMINFO1_BOUND_PHR0: |
| case PICODATA_ITEMINFO1_BOUND_PHR1: |
| case PICODATA_ITEMINFO1_BOUND_PHR2: |
| case PICODATA_ITEMINFO1_BOUND_PHR3: |
| /*boudary items consumed here except SEND,TERM*/ |
| return FALSE; |
| break; |
| default: |
| break; |
| } |
| break; |
| default: |
| break; |
| } |
| /*all other items not explicitly mentioned here |
| are transmitted to next PUs*/ |
| return TRUE; |
| }/*isItemToPut*/ |
| |
| /** |
| * pushes a boundary TERM item into some buffer |
| * @param outBuff : output buffer base pointer |
| * @param outWritePos : offset in output buffer |
| * @param *bytesWr : actual bytes written |
| * @return PICO_OK |
| * @remarks used while forcing TERM input items in forward processing |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t pam_put_term(picoos_uint8 *outBuff, |
| picoos_uint16 outWritePos, picoos_uint8 *bytesWr) |
| { |
| picoos_uint8 *sDest; |
| sDest = &(outBuff[outWritePos]); |
| sDest[0] = PICODATA_ITEM_BOUND; /*Item type*/ |
| sDest[1] = PICODATA_ITEMINFO1_BOUND_TERM; |
| sDest[2] = PICODATA_ITEMINFO2_BOUNDTYPE_T; |
| sDest[3] = 0; /*item size*/ |
| *bytesWr = 4; |
| return PICO_OK; |
| }/*pam_put_term*/ |
| |
| /** |
| * translates one full phone into a PHONE Item including DT Dur, F0 and CEP trees feature generation and traversal |
| * @param this : Pam item subobject pointer |
| * @return PICO_OK : processing successful |
| * @return PICODATA_PU_ERROR : error accessing PAM object |
| * @return !=PICO_OK : processing errors |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t pamPhoneProcess(register picodata_ProcessingUnit this) |
| { |
| pam_subobj_t *pam; |
| pico_status_t sResult; |
| picokdt_classify_result_t dTreeResult; |
| picoos_uint8 nI, bWr; |
| |
| pam = (pam_subobj_t *) this->subObj; |
| if (NULL == this || NULL == this->subObj) { |
| return PICODATA_PU_ERROR; |
| } |
| /*expands current phone in current syllable in the corresponding vector pam->sPhFeats[]*/ |
| sResult = pam_expand_vector(this); |
| sResult = pamCompressVector(this); |
| sResult = pamReorgVector(this); |
| |
| /*tree traversal for duration*/ |
| if (!pam_do_tree(this, pam->dtdur, &(pam->sPhFeats[0]), PICOPAM_INVEC_SIZE, |
| &dTreeResult)) { |
| PICODBG_WARN(("problem using pam tree dtdur, using fallback value")); |
| dTreeResult.class = 0; |
| } |
| pam->durIndex = dTreeResult.class; |
| sResult = pam_get_duration(this, pam->durIndex, &(pam->phonDur), |
| &(pam->numFramesState[0])); |
| |
| /*tree traversal for pitch*/ |
| for (nI = 0; nI < PICOPAM_MAX_STATES_PER_PHONE; nI++) { |
| if (!pam_do_tree(this, pam->dtlfz[nI], &(pam->sPhFeats[0]), |
| PICOPAM_INVEC_SIZE, &dTreeResult)) { |
| PICODBG_WARN(("problem using pam tree lf0Tree, using fallback value")); |
| dTreeResult.class = 0; |
| } |
| pam->lf0Index[nI] = dTreeResult.class; |
| } |
| |
| /*pdf access for pitch*/ |
| for (nI = 0; nI < PICOPAM_MAX_STATES_PER_PHONE; nI++) { |
| sResult = pam_get_f0(this, &(pam->lf0Index[0]), nI, &(pam->phonF0[0])); |
| } |
| |
| /*update vector with duration and pitch for cep tree traversal*/ |
| sResult = pam_update_vector(this); |
| /*cep tree traversal*/ |
| for (nI = 0; nI < PICOPAM_MAX_STATES_PER_PHONE; nI++) { |
| |
| if (!pam_do_tree(this, pam->dtmgc[nI], &(pam->sPhFeats[0]), |
| PICOPAM_INVEC_SIZE, &dTreeResult)) { |
| PICODBG_WARN(("problem using pam tree lf0Tree, using fallback value")); |
| dTreeResult.class = 0; |
| } |
| pam->mgcIndex[nI] = dTreeResult.class; |
| } |
| /*put item to output buffer*/ |
| sResult = pam_put_item(this, pam->outBuf, pam->outWritePos, &bWr); |
| if (sResult == PICO_OK) |
| pam->outWritePos += bWr; |
| else |
| return sResult; |
| return PICO_OK; |
| }/*pamPhoneProcess*/ |
| |
| /** |
| * manages first syllable attached items when seen before SBEG |
| * @param this : Pam item subobject pointer |
| * @return PICO_OK (0) : default return code --> means no more items to be processed before 1st syllable |
| * @return PICOPAM_GOTO_FEED : go to feed state after this |
| * @return PICOPAM_GOTO_SCHEDULE : flush received |
| * @return PICODATA_PU_ERROR : errors |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t pamDoPreSyll(register picodata_ProcessingUnit this) |
| { |
| pam_subobj_t *pam; |
| pico_status_t sResult; |
| picoos_uint8 bWr, nRc; |
| picoos_uint8 *qItem; |
| nRc = PICOPAM_PRE_SYLL_ENDED; |
| pam = (pam_subobj_t *) this->subObj; |
| if (NULL == this || NULL == this->subObj) { |
| return PICODATA_PU_ERROR; |
| } |
| /*regenerate initial items before the phonemes*/ |
| if (((qItem = pamPopAttachedSy0(this)) != NULL) && !((qItem[0] |
| == PICODATA_ITEM_BOUND) && (qItem[1] |
| == PICODATA_ITEMINFO1_BOUND_SBEG))) { |
| if (isItemToPut(qItem)) { |
| pam_put_qItem(qItem, pam->outBuf, pam->outWritePos, &bWr);/*popped item has to be sent to next PU*/ |
| pam->outWritePos += bWr; |
| nRc = PICOPAM_GOTO_FEED; |
| } |
| |
| if (is_pam_command(qItem) == TRUE) { |
| nRc = pamDoCommand(this, qItem); /*popped item is a PAM command : do it NOW!!*/ |
| if ((nRc == PICOPAM_FLUSH_RECEIVED) || (nRc == PICODATA_PU_ERROR)) { |
| /*FLUSH command RECEIVED or errors: stop ALL PROCESSING*/ |
| return nRc; |
| } |
| } |
| pam->nCurrAttachedItem++; |
| if (nRc == 0) |
| return PICOPAM_CONTINUE; |
| else |
| return nRc; |
| } |
| /*SBEG item management*/ |
| if ((qItem != NULL) && (qItem[0] == PICODATA_ITEM_BOUND) && (qItem[1] |
| == PICODATA_ITEMINFO1_BOUND_SBEG)) { |
| sResult = pam_put_qItem(qItem, pam->outBuf, pam->outWritePos, &bWr); |
| pam->outWritePos += bWr; |
| pam->nCurrAttachedItem++; |
| nRc = PICOPAM_GOTO_FEED; |
| } |
| return nRc; |
| }/*pamDoPreSyll*/ |
| |
| /** |
| * performs a step of the pam processing |
| * @param this : Pam item subobject pointer |
| * @param mode : mode for the PU |
| * @param *numBytesOutput : pointer to output number fo bytes produced |
| * @return PICODATA_PU_IDLE : nothing to do |
| * @return PICODATA_PU_BUSY : still tasks undergoing |
| * @return PICODATA_PU_ERROR : errors on processing |
| * @callgraph |
| * @callergraph |
| */ |
| static picodata_step_result_t pam_step(register picodata_ProcessingUnit this, |
| picoos_int16 mode, picoos_uint16 * numBytesOutput) |
| { |
| |
| register pam_subobj_t * pam; |
| |
| pico_status_t sResult; |
| picoos_uint16 blen, numinb, numoutb; |
| pico_status_t rv; |
| picoos_uint8 bWr; |
| picoos_uint8 bForcedItem[4]; |
| picoos_uint8 *qItem; |
| |
| numinb = 0; |
| numoutb = 0; |
| rv = PICO_OK; |
| |
| if (NULL == this || NULL == this->subObj) { |
| return PICODATA_PU_ERROR; |
| } |
| pam = (pam_subobj_t *) this->subObj; |
| mode = mode; /* avoid warning "var not used in this function"*/ |
| /*Init number of output bytes*/ |
| *numBytesOutput = 0; |
| |
| while (1) { /* exit via return */ |
| |
| PICODBG_DEBUG(("pam_step -- doing state %i",pam->procState)); |
| |
| switch (pam->procState) { |
| |
| case PICOPAM_COLLECT: |
| /* *************** item collector ***********************************/ |
| /*collecting items from the PU input buffer*/ |
| sResult = picodata_cbGetItem(this->cbIn, |
| &(pam->inBuf[pam->inWritePos]), pam->inBufSize |
| - pam->inWritePos, &blen); |
| if (sResult != PICO_OK) { |
| if (sResult == PICO_EOF) { |
| /*no items available : remain in state 0 and return idle*/ |
| return PICODATA_PU_IDLE; |
| } else { |
| /*errors : remain in state 0 and return error*/ |
| PICODBG_DEBUG(("pam_step(PICOPAM_COLLECT) -- Errors on item buffer input, status: %d",sResult)); |
| return PICODATA_PU_ERROR; |
| } |
| } |
| |
| PICODBG_DEBUG(("pam_step -- got item, status: %d",sResult)); |
| sResult = picodata_is_valid_item( |
| &(pam->inBuf[pam->inWritePos]), blen); |
| if (sResult != TRUE) { |
| /*input item is not valid : consume the input item and stay in COLLECT*/ |
| pam->inWritePos += blen; |
| pam->inReadPos += blen; |
| if (pam->inReadPos >= pam->inWritePos) { |
| pam->inReadPos = 0; |
| pam->inWritePos = 0; |
| }PICODBG_DEBUG(("pam_step -- item is not valid, type: %d",pam->inBuf[pam->inWritePos])); |
| return PICODATA_PU_BUSY; |
| } |
| |
| /*update input write pointer + move to "schedule" state*/ |
| pam->inWritePos += blen; |
| pam->procState = PICOPAM_SCHEDULE; |
| return PICODATA_PU_BUSY; |
| |
| case PICOPAM_SCHEDULE: |
| /* check out if more items are available */ |
| if (pam->inReadPos >= pam->inWritePos) { |
| /*no more items : back to collect state*/ |
| pam->procState = PICOPAM_COLLECT; |
| return PICODATA_PU_BUSY; |
| } |
| /* we have one full valid item, with len>0 starting at |
| pam->inBuf[pam->inReadPos]; here we decide how to elaborate it */ |
| |
| /* PLAY management */ |
| if (is_pam_play_command(&(pam->inBuf[pam->inReadPos])) == TRUE) { |
| /*consume the input item : it has been managed*/ |
| pam->inReadPos += pam->inBuf[pam->inReadPos + 3] |
| + sizeof(picodata_itemhead_t); |
| if (pam->inReadPos >= pam->inWritePos) { |
| pam->inReadPos = 0; |
| pam->inWritePos = 0; |
| } |
| /*stay in schedule*/ |
| return PICODATA_PU_BUSY; |
| } |
| |
| if (pam_check_immediate(this, &(pam->inBuf[pam->inReadPos]))) { |
| /* item has to be sent to next PU NOW : switch to "immediate" state */ |
| pam->procState = PICOPAM_IMMEDIATE; |
| return PICODATA_PU_BUSY; |
| } |
| if (pamCheckResourceLimits(this, &(pam->inBuf[pam->inReadPos]))) { |
| /* item would not fit into local buffers -->> free some space -->> |
| switch to "force term" state */ |
| pam->procState = PICOPAM_FORWARD_FORCE_TERM; |
| return PICODATA_PU_BUSY; |
| } |
| |
| if (pam_deal_with(&(pam->inBuf[pam->inReadPos]))) { |
| /* item has to be managed by the "forward" state : switch to forward state*/ |
| pam->procState = PICOPAM_FORWARD; |
| return PICODATA_PU_BUSY; |
| } |
| |
| if (pam_hastobe_queued(this, &(pam->inBuf[pam->inReadPos]))) { |
| /* item is not for PAM so it has to be queued internally */ |
| pam_queue(this, &(pam->inBuf[pam->inReadPos])); |
| /*consume the input item : it has been queued*/ |
| pam->inReadPos += pam->inBuf[pam->inReadPos + 3] |
| + sizeof(picodata_itemhead_t); |
| if (pam->inReadPos >= pam->inWritePos) { |
| pam->inReadPos = 0; |
| pam->inWritePos = 0; |
| } |
| return PICODATA_PU_BUSY; |
| } |
| /*if we get here something wrong happened. Being the the item valid, |
| switch to "immediate" state -> send it to next PU -> */ |
| PICODBG_DEBUG(("pam_step (PICOPAM_SCHEDULE) -- unexpected item is sent to next PU !!")); |
| pam->procState = PICOPAM_IMMEDIATE; |
| return PICODATA_PU_BUSY; |
| break; /*PICOPAM_SCHEDULE*/ |
| |
| case PICOPAM_FORWARD: |
| /*we have one full valid item, with len>0 starting at pam->inBuf[pam->inReadPos]. |
| furthermore this item should be in the set {BOUND,SYLL}. |
| No other items should arrive here*/ |
| sResult = pam_adapter_forward_step(this, |
| &(pam->inBuf[pam->inReadPos])); |
| /*decide if this item has to be queued for later re-synchronization |
| normally this is only done for SEND/TERM items*/ |
| if (pam_hastobe_queued(this, &(pam->inBuf[pam->inReadPos]))) { |
| /*item has to be queued iternally in local storage*/ |
| pam_queue(this, &(pam->inBuf[pam->inReadPos])); |
| } |
| /*now assign next state according to Forward results*/ |
| switch (sResult) { |
| case PICOPAM_READY: |
| pam->needMoreInput = FALSE; |
| /*consume the input item : it has already been stored*/ |
| pam->inReadPos += pam->inBuf[pam->inReadPos + 3] |
| + sizeof(picodata_itemhead_t); |
| if (pam->inReadPos >= pam->inWritePos) { |
| pam->inReadPos = 0; |
| pam->inWritePos = 0; |
| } |
| /*activate backward processing*/ |
| sResult = pam_adapter_backward_step(this); |
| if (sResult == PICO_OK) { |
| pam->procState = PICOPAM_PROCESS; |
| return PICODATA_PU_BUSY; |
| } else { |
| PICODBG_DEBUG(("pam_step (PICOPAM_FORWARD) -- wrong return from BackwardStep: %d -- Buffered sentence will be discarded",sResult)); |
| pam_reset_processors(this); |
| pam->nLastAttachedItemId = pam->nCurrAttachedItem |
| = 0; |
| pam->nAttachedItemsSize = 0; |
| |
| pam->procState = PICOPAM_SCHEDULE; |
| return PICODATA_PU_BUSY; |
| } |
| break; |
| |
| case PICOPAM_MORE: |
| pam->needMoreInput = TRUE; |
| /*consume the input item : it has already been stored*/ |
| pam->inReadPos += pam->inBuf[pam->inReadPos + 3] |
| + sizeof(picodata_itemhead_t); |
| if (pam->inReadPos >= pam->inWritePos) { |
| /*input is finished and PAM need more data : |
| clenaup input buffer + switch state back to "schedule state" |
| */ |
| pam->inReadPos = 0; |
| pam->inWritePos = 0; |
| pam->procState = PICOPAM_SCHEDULE; |
| return PICODATA_PU_ATOMIC; |
| } else { |
| /*input is not finished and need more data : |
| remain in state "PICOPAM_FORWARD" */ |
| return PICODATA_PU_ATOMIC; |
| } |
| break; |
| |
| case PICOPAM_NA: |
| default: |
| /*this item has not been stored in internal buffers: |
| assign this item to the management of |
| "immediate" state*/ |
| pam->procState = PICOPAM_IMMEDIATE; |
| return PICODATA_PU_BUSY; |
| break; |
| } /*end switch sResult*/ |
| break; /*PICOPAM_FORWARD*/ |
| |
| case PICOPAM_FORWARD_FORCE_TERM: |
| /*we have one full valid item, with len>0 |
| starting at pam->inBuf[pam->inReadPos] but we decided |
| to force a TERM item before, without losing the item in |
| inBuf[inReadPos] : --> generate a TERM item and do the |
| forward processing */ |
| pam_put_term(bForcedItem, 0, &bWr); |
| sResult = pam_adapter_forward_step(this, &(bForcedItem[0])); |
| switch (sResult) { |
| case PICOPAM_READY: |
| pam_queue(this, &(bForcedItem[0])); |
| /*activate backward processing*/ |
| sResult = pam_adapter_backward_step(this); |
| if (sResult == PICO_OK) { |
| pam->procState = PICOPAM_PROCESS; |
| return PICODATA_PU_BUSY; |
| } else { |
| PICODBG_DEBUG(("pam_step (PICOPAM_FORWARD_FORCE_TERM) -- wrong return from BackwardStep: %d -- Buffered sentence will be discarded",sResult)); |
| pam_reset_processors(this); |
| pam->nLastAttachedItemId = pam->nCurrAttachedItem |
| = 0; |
| pam->nAttachedItemsSize = 0; |
| |
| pam->procState = PICOPAM_SCHEDULE; |
| return PICODATA_PU_BUSY; |
| } |
| break; |
| |
| default: |
| PICODBG_DEBUG(("pam_step (PICOPAM_FORWARD_FORCE_TERM) -- Forced a TERM but processing do not appear to end -- Buffered sentence will be discarded",sResult)); |
| pam_reset_processors(this); |
| pam->nLastAttachedItemId = pam->nCurrAttachedItem = 0; |
| pam->nAttachedItemsSize = 0; |
| |
| pam->procState = PICOPAM_SCHEDULE; |
| return PICODATA_PU_BUSY; |
| break; |
| |
| } /*end switch sResult*/ |
| break; /*PICOPAM_FORWARD_FORCE_TERM*/ |
| |
| case PICOPAM_PROCESS: |
| |
| if ((PICOPAM_FRAME_ITEM_SIZE + 4) > (pam->outBufSize |
| - pam->outWritePos)) { |
| /*WARNING (buffer overflow): leave status unchanged until output buffer free */ |
| return PICODATA_PU_BUSY; |
| } |
| |
| if (pam->nCurrSyllable == 0) { |
| sResult = pamDoPreSyll(this); |
| if (sResult == PICOPAM_GOTO_FEED) { |
| /* |
| items pushed to output buffer : |
| switch to "feed" but then back |
| to "process" |
| */ |
| pam->retState = PICOPAM_PROCESS; |
| pam->procState = PICOPAM_FEED; |
| return PICODATA_PU_BUSY; |
| } |
| if (sResult == PICOPAM_CONTINUE) { |
| /* |
| items processed (maybe commands) : |
| return (maybe we need to process other |
| items in pre_syll) and then back to "process" |
| */ |
| pam->retState = PICOPAM_PROCESS; |
| pam->procState = PICOPAM_PROCESS; |
| return PICODATA_PU_BUSY; |
| } |
| |
| if ((sResult == PICOPAM_FLUSH_RECEIVED) || (sResult |
| == PICODATA_PU_ERROR)) { |
| /* |
| items processed were a flush or |
| problems found: switch to "schedule" |
| and abort all processing |
| */ |
| pam->retState = PICOPAM_SCHEDULE; |
| pam->procState = PICOPAM_SCHEDULE; |
| return PICODATA_PU_BUSY; |
| } |
| if (sResult == PICOPAM_PRE_SYLL_ENDED) { |
| /* |
| we get here when pam->nCurrSyllable==0 and |
| no more items to be processed before the syllable |
| */ |
| sResult = sResult; |
| } |
| } |
| |
| if (pamHasToProcess(this)) { |
| if (pamPhoneProcess(this) == PICO_OK) { |
| sResult = pamUpdateProcess(this); |
| pam->procState = PICOPAM_FEED; /*switch to feed*/ |
| return PICODATA_PU_BUSY; |
| } else { |
| PICODBG_DEBUG(("pam_step(PICOPAM_PROCESS) --- NULL return from pamPhoneProcess")); |
| return PICODATA_PU_ERROR; |
| } |
| } |
| |
| if (pamHasToPop(this) != FALSE) { |
| if ((qItem = pamPopItem(this)) == NULL) { |
| PICODBG_DEBUG(("pam_step(PICOPAM_PROCESS) --- NULL return from pamPopItem")); |
| return PICODATA_PU_ERROR; |
| } |
| |
| if (isItemToPut(qItem)) { |
| /*popped item has to be sent to next PU*/ |
| sResult = pam_put_qItem(qItem, pam->outBuf, |
| pam->outWritePos, &bWr); |
| if (sResult != PICO_OK) { |
| PICODBG_DEBUG(("pam_step(PICOPAM_PROCESS) --- Error on writing item to output buffer")); |
| return PICODATA_PU_ERROR; |
| } |
| pam->outWritePos += bWr; /*item write ok*/ |
| pam->procState = PICOPAM_FEED; /*switch to feed*/ |
| } |
| |
| /*moved command processing here (after pam_put_qItem) because of FLUSH command could erase |
| * the syllable structure and make it impossible to transmit the flush to other PUs*/ |
| if (is_pam_command(qItem) == TRUE) { |
| sResult = pamDoCommand(this, qItem); /*popped item is a PAM command : do it NOW!!*/ |
| if ((sResult == PICOPAM_FLUSH_RECEIVED) || (sResult |
| == PICODATA_PU_ERROR)) { |
| pam->retState = PICOPAM_SCHEDULE; |
| pam->procState = PICOPAM_SCHEDULE; /*switch to schedule */ |
| return PICODATA_PU_BUSY; |
| } |
| } |
| /*update PAM status: if more items attached to the current syllable |
| stay in current syllable, otherwise move to next syllable and switch |
| to processing phones */ |
| sResult = pamUpdateProcess(this); /*both "doCommand" or "put" : update PAM status*/ |
| return PICODATA_PU_BUSY; |
| } else { |
| pam->procState = PICOPAM_SCHEDULE; /*switch to schedule */ |
| return PICODATA_PU_BUSY; |
| } |
| |
| break; /*PICOPAM_PROCESS*/ |
| |
| case PICOPAM_IMMEDIATE: |
| /* *** item is output NOW!!! */ |
| /*context: full valid item, with len> starting at pam->inBuf[pam->inReadPos]*/ |
| numinb = PICODATA_ITEM_HEADSIZE |
| + pam->inBuf[pam->inReadPos + 3]; |
| sResult = picodata_copy_item(&(pam->inBuf[pam->inReadPos]), |
| numinb, &(pam->outBuf[pam->outWritePos]), |
| pam->outBufSize - pam->outWritePos, &numoutb); |
| |
| if (sResult == PICO_OK) { |
| pam->inReadPos += numinb; |
| if (pam->inReadPos >= pam->inWritePos) { |
| pam->inReadPos = 0; |
| pam->inWritePos = 0; |
| pam->needMoreInput = FALSE; |
| } |
| pam->outWritePos += numoutb; |
| pam->procState = PICOPAM_FEED; /*switch to FEED state*/ |
| pam->retState = PICOPAM_SCHEDULE; /*back to SCHEDULE after FEED*/ |
| } else { |
| /* |
| PICO_EXC_BUF_IGNORE |
| PICO_EXC_BUF_UNDERFLOW |
| PICO_EXC_BUF_OVERFLOW |
| */ |
| PICODBG_DEBUG(("pam_step(PICOPAM_IMMEDIATE) --- wrong return from picodata_copy_item:%d",sResult)); |
| return PICODATA_PU_ERROR; |
| } |
| return PICODATA_PU_BUSY; |
| break; /*PICOPAM_IMMEDIATE*/ |
| |
| case PICOPAM_FEED: |
| /* *************** item output/feeding ***********************************/ |
| /*feeding items to PU output buffer*/ |
| sResult = picodata_cbPutItem(this->cbOut, |
| &(pam->outBuf[pam->outReadPos]), pam->outWritePos |
| - pam->outReadPos, &numoutb); |
| PICODBG_DEBUG(("pam_step -- put item, status: %d",sResult)); |
| if (PICO_OK == sResult) { |
| |
| PICODATA_INFO_ITEM(this->voice->kbArray[PICOKNOW_KBID_DBG], |
| (picoos_uint8 *)"pam: ", |
| pam->outBuf + pam->outReadPos, pam->outBufSize); |
| |
| pam->outReadPos += numoutb; |
| *numBytesOutput = numoutb; |
| if (pam->outReadPos >= pam->outWritePos) { |
| /*reset the output pointers*/ |
| pam->outReadPos = 0; |
| pam->outWritePos = 0; |
| /*switch to appropriate state*/ |
| switch (pam->retState) { |
| case PICOPAM_IMMEDIATE: |
| pam->procState = PICOPAM_IMMEDIATE; |
| pam->retState = PICOPAM_SCHEDULE; |
| return PICODATA_PU_BUSY; |
| break; |
| case PICOPAM_PLAY: |
| pam->procState = PICOPAM_PLAY; |
| pam->retState = PICOPAM_SCHEDULE; |
| return PICODATA_PU_BUSY; |
| break; |
| default: |
| break; |
| } |
| /*Define next state |
| a)process (if current sentence has more data to process) |
| b)schedule (no more data to process in current sentence) |
| NOTE : case b)also happens when dealing with non BOUND/SYLL items*/ |
| if ((pamHasToProcess(this)) || (pamHasToPop(this))) { |
| pam->procState = PICOPAM_PROCESS; |
| } else { |
| pam->nCurrSyllable = -1; |
| pam_reset_processors(this); |
| pam->nLastAttachedItemId = pam->nCurrAttachedItem |
| = 0; |
| pam->nAttachedItemsSize = 0; |
| |
| pam->nSyllPhoneme = 0; |
| pam->procState = PICOPAM_SCHEDULE; |
| } |
| } |
| return PICODATA_PU_BUSY; |
| |
| } else if (PICO_EXC_BUF_OVERFLOW == sResult) { |
| |
| PICODBG_DEBUG(("pam_step ** feeding, overflow, PICODATA_PU_OUT_FULL")); |
| return PICODATA_PU_OUT_FULL; |
| |
| } else if ((PICO_EXC_BUF_UNDERFLOW == sResult) |
| || (PICO_ERR_OTHER == sResult)) { |
| |
| PICODBG_DEBUG(("pam_step ** feeding problem, discarding item")); |
| pam->outReadPos = 0; |
| pam->outWritePos = 0; |
| pam->procState = PICOPAM_COLLECT; |
| return PICODATA_PU_ERROR; |
| |
| } |
| break; /*PICOPAM_FEED*/ |
| |
| default: |
| /*NOT feeding items*/ |
| sResult = PICO_EXC_BUF_IGNORE; |
| break; |
| }/*end switch*/ |
| return PICODATA_PU_BUSY; /*check if there is more data to process after feeding*/ |
| |
| }/*end while*/ |
| return PICODATA_PU_IDLE; |
| }/*pam_step*/ |
| |
| /** |
| * performs one step of a PamTree |
| * @param this : Pam item subobject pointer |
| * @param dtpam : the Pam decision tree |
| * @param *invec : the input vector pointer |
| * @param inveclen : length of the input vector |
| * @param *dtres : the classification result |
| * @return dtres->set : the result of tree traversal |
| * @callgraph |
| * @callergraph |
| */ |
| static picoos_uint8 pam_do_tree(register picodata_ProcessingUnit this, |
| const picokdt_DtPAM dtpam, const picoos_uint8 *invec, |
| const picoos_uint8 inveclen, picokdt_classify_result_t *dtres) |
| { |
| picoos_uint8 okay; |
| |
| okay = TRUE; |
| /* construct input vector, which is set in dtpam */ |
| if (!picokdt_dtPAMconstructInVec(dtpam, invec, inveclen)) { |
| /* error constructing invec */ |
| PICODBG_WARN(("problem with invec")); |
| picoos_emRaiseWarning(this->common->em, PICO_WARN_INVECTOR, NULL, NULL); |
| okay = FALSE; |
| } |
| /* classify */ |
| if (okay && (!picokdt_dtPAMclassify(dtpam))) { |
| /* error doing classification */ |
| PICODBG_WARN(("problem classifying")); |
| picoos_emRaiseWarning(this->common->em, PICO_WARN_CLASSIFICATION, NULL, |
| NULL); |
| okay = FALSE; |
| } |
| /* decompose */ |
| if (okay && (!picokdt_dtPAMdecomposeOutClass(dtpam, dtres))) { |
| /* error decomposing */ |
| PICODBG_WARN(("problem decomposing")); |
| picoos_emRaiseWarning(this->common->em, PICO_WARN_OUTVECTOR, NULL, NULL); |
| okay = FALSE; |
| } |
| |
| PICODBG_TRACE(("dtpam output class: %d", dtres->class)); |
| |
| return dtres->set; |
| }/*pam_do_tree*/ |
| |
| /** |
| * returns the carrier vowel id inside a syllable |
| * @param this : Pam item subobject pointer |
| * @param item : the full syllable item |
| * @param *pos : pointer to the variable to receive the position of the carrier vowel |
| * @return the phonetic id for the carrier vowel inside the syllable |
| * @callgraph |
| * @callergraph |
| */ |
| static picoos_uint8 pam_get_vowel_name(register picodata_ProcessingUnit this, |
| picoos_uint8 *item, picoos_uint8 *pos) |
| { |
| pam_subobj_t *pam; |
| picoos_uint8 *phon, nI, nCond1; |
| if (NULL == this || NULL == this->subObj) { |
| return 0; |
| } |
| pam = (pam_subobj_t *) this->subObj; |
| |
| if (item == NULL) |
| return 0; |
| if (item[3] == 0) |
| return 0; |
| phon = &item[4]; |
| for (nI = 0; nI < item[3]; nI++) { |
| nCond1 = picoktab_isSyllCarrier(pam->tabphones, phon[nI]); |
| if (nCond1) { |
| *pos = nI; |
| return phon[nI]; |
| } |
| } |
| return 0; |
| }/*pam_get_vowel_name */ |
| |
| /** |
| * returns the pause phone id in the current ph.alphabet |
| * @param this : Pam sub object pointer |
| * @return the (numeric) phonetic id of the pause phone in current phonetic alphabet |
| * @return 0 : errors on getting the pam subobject pointer |
| * @callgraph |
| * @callergraph |
| */ |
| static picoos_uint8 pam_get_pause_id(register picodata_ProcessingUnit this) |
| { |
| picoos_uint8 nVal1; |
| /*picoos_uint8 nVal2; */ |
| pam_subobj_t *pam; |
| if (NULL == this || NULL == this->subObj) { |
| return 0; |
| } |
| pam = (pam_subobj_t *) this->subObj; |
| nVal1 = picoktab_getPauseID(pam->tabphones); |
| return nVal1; |
| }/*pam_get_pause_id */ |
| |
| /** |
| * returns the pam sentence type (declarative, interrogative...) |
| * @param iteminfo1 : the boundary item info 1 |
| * @param iteminfo2 : the boundary item info 2 |
| * @return the sentence type suitably encoded for trees |
| * @callgraph |
| * @callergraph |
| */ |
| static picoos_uint8 pam_map_sentence_type(picoos_uint8 iteminfo1, |
| picoos_uint8 iteminfo2) |
| { |
| switch (iteminfo2) { |
| case PICODATA_ITEMINFO2_BOUNDTYPE_P: |
| return PICOPAM_DECLARATIVE; |
| case PICODATA_ITEMINFO2_BOUNDTYPE_T: |
| return PICOPAM_DECLARATIVE; |
| case PICODATA_ITEMINFO2_BOUNDTYPE_Q: |
| return PICOPAM_INTERROGATIVE; |
| case PICODATA_ITEMINFO2_BOUNDTYPE_E: |
| return PICOPAM_DECLARATIVE; |
| default: |
| return PICOPAM_DECLARATIVE; |
| } |
| iteminfo1 = iteminfo1; /* avoid warning "var not used in this function"*/ |
| return PICOPAM_DECLARATIVE; |
| }/*pam_map_sentence_type */ |
| |
| /** |
| * returns the pam phrase type |
| * @param iteminfo1 : the boundary item info 1 |
| * @param iteminfo2 : the boundary item info 2 |
| * @return the phrase type suitably encoded for trees |
| * @callgraph |
| * @callergraph |
| */ |
| static picoos_uint8 pam_map_phrase_type(picoos_uint8 iteminfo1, |
| picoos_uint8 iteminfo2) |
| { |
| |
| switch (iteminfo2) { |
| case PICODATA_ITEMINFO2_BOUNDTYPE_P: |
| switch (iteminfo1) { |
| case PICODATA_ITEMINFO1_BOUND_PHR1: |
| # ifdef PAM_PHR2_WITH_PR1 |
| case PICODATA_ITEMINFO1_BOUND_PHR2: |
| # endif |
| return PICOPAM_P; /*current_prhase type = "P" (encoded to 1) */ |
| break; |
| case PICODATA_ITEMINFO1_BOUND_PHR3: |
| # ifdef PAM_PHR2_WITH_PR3 |
| case PICODATA_ITEMINFO1_BOUND_PHR2 : |
| # endif |
| return PICOPAM_p; /*current_prhase type = "p" (encoded to 2) */ |
| break; |
| case PICODATA_ITEMINFO1_BOUND_SBEG: |
| return PICOPAM_P; /*current_prhase type = "P" (encoded to 1) */ |
| break; |
| default: |
| PICODBG_DEBUG(("Map pam_map_phrase_type : unexpected iteminfo1")); |
| return PICOPAM_P; /*current_prhase type = "P" (encoded to 1) */ |
| break; |
| } |
| case PICODATA_ITEMINFO2_BOUNDTYPE_T: |
| return PICOPAM_T; /*current_prhase type = "T" (encoded to 0) */ |
| break; |
| case PICODATA_ITEMINFO2_BOUNDTYPE_E: |
| return PICOPAM_T; /*current_prhase type = "T" (encoded to 0) */ |
| break; |
| case PICODATA_ITEMINFO2_BOUNDTYPE_Q: |
| return PICOPAM_Y; /*current_prhase type = "T" (encoded to 0) */ |
| break; |
| default: |
| PICODBG_DEBUG(("Map pam_map_phrase_type : unexpected iteminfo2")); |
| return PICOPAM_T; /*current_prhase type = "T" (encoded to 0) */ |
| break; |
| }PICODBG_DEBUG(("Map pam_map_phrase_type : unexpected iteminfo2")); |
| return PICOPAM_T; /*current_prhase type = "T" (encoded to 0) */ |
| |
| }/*pam_map_phrase_type */ |
| |
| /** |
| * does the cleanup of the sub object processors flags at sentence start |
| * @param this : pointer to PAM PU sub object pointer |
| * @return PICO_OK : reset OK |
| * @return PICO_ERR_OTHER : errors on getting pam sub obj pointer |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t pam_reset_processors(register picodata_ProcessingUnit this) |
| { |
| pam_subobj_t *pam; |
| if (NULL == this || NULL == this->subObj) { |
| return PICO_ERR_OTHER; |
| } |
| pam = (pam_subobj_t *) this->subObj; |
| |
| pam->nCurrSyllable = -1; |
| pam->nTotalPhonemes = pam->nSyllPhoneme = pam->nCurrPhoneme |
| = pam->nTotalSyllables = pam->sType = pam->pType = 0; |
| pam->dRest = 0.0f; |
| /*set all to 0*/ |
| pam->a3_overall_syllable = pam->a3_primary_phrase_syllable = pam->b4_b5_syllable = |
| pam->b6_b7_syllable = pam->b6_b7_state = pam->b8_b9_stressed_syllable = |
| pam->b10_b11_accented_syllable = pam->b12_b13_syllable = pam->b12_b13_state = |
| pam->b14_b15_syllable = pam->b14_b15_state = pam->b17_b19_syllable = |
| pam->b17_b19_state = pam->b18_b20_b21_syllable = pam->b18_b20_b21_state = |
| pam->c3_overall_syllable= pam->c3_primary_phrase_syllable = pam->d2_syllable_in_word = |
| pam->d2_prev_syllable_in_word = pam->d2_current_primary_phrase_word = pam->e1_syllable_word_start = |
| pam->e1_syllable_word_end= pam->e1_content = pam->e2_syllable_word_start = |
| pam->e2_syllable_word_end= pam->e3_e4_word = pam->e3_e4_state = |
| pam->e5_e6_content_word = pam->e5_e6_content = pam->e7_e8_word = |
| pam->e7_e8_content = pam->e7_e8_state = pam->e9_e11_word = |
| pam->e9_e11_saw_word = pam->e9_e11_state = pam->e10_e12_e13_word = |
| pam->e10_e12_e13_state = pam->e10_e12_e13_saw_word = pam->f2_overall_word = |
| pam->f2_word_syllable = pam->f2_next_word_syllable = pam->f2_current_primary_phrase_word = |
| pam->g1_current_secondary_phrase_syllable = pam->g1_current_syllable = |
| pam->g2_current_secondary_phrase_word = pam->g2_current_word = |
| pam->h1_current_secondary_phrase_syll = pam->h2_current_secondary_phrase_word = |
| pam->h3_h4_current_secondary_phrase_word = pam->h5_current_phrase_type = |
| pam->h5_syllable = pam->h5_state = pam->i1_secondary_phrase_syllable = |
| pam->i1_next_secondary_phrase_syllable = pam->i2_secondary_phrase_word = |
| pam->i2_next_secondary_phrase_word = pam->j1_utterance_syllable = |
| pam->j2_utterance_word = pam->j3_utterance_sec_phrases = 0; |
| /*Override 0 with 1*/ |
| pam->b4_b5_syllable = pam->b17_b19_syllable = pam->b18_b20_b21_syllable = |
| pam->e9_e11_word = pam->e10_e12_e13_word = pam->e7_e8_word = |
| pam->h2_current_secondary_phrase_word = 1; |
| /*Override 0 with -1*/ |
| pam->e1_syllable_word_start = pam->e1_syllable_word_end = pam->e2_syllable_word_start = |
| pam->e2_syllable_word_end = -1; |
| |
| return PICO_OK; |
| }/*pam_reset_processors*/ |
| |
| /** |
| * does the cleanup of the sub object processors flags before the backward step |
| * @param this : pointer to PAM PU sub object pointer |
| * @return PICO_OK : reset OK |
| * @return PICO_ERR_OTHER : errors on getting pam sub obj pointer |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t pam_reset_processors_back( |
| register picodata_ProcessingUnit this) |
| { |
| pam_subobj_t *pam; |
| if (NULL == this || NULL == this->subObj) { |
| return PICO_ERR_OTHER; |
| } |
| pam = (pam_subobj_t *) this->subObj; |
| |
| /*set all to 0*/ |
| pam->a3_overall_syllable |
| = pam->a3_primary_phrase_syllable |
| = pam->b4_b5_syllable |
| = pam->b6_b7_syllable |
| = pam->b6_b7_state |
| = pam->b8_b9_stressed_syllable |
| = pam->b10_b11_accented_syllable |
| = pam->b12_b13_syllable |
| = pam->b12_b13_state |
| = pam->b14_b15_syllable |
| = pam->b14_b15_state |
| = pam->b17_b19_syllable |
| = pam->b17_b19_state |
| = pam->b18_b20_b21_syllable |
| = pam->b18_b20_b21_state |
| = pam->c3_overall_syllable |
| = pam->c3_primary_phrase_syllable |
| = pam->d2_syllable_in_word |
| = pam->d2_prev_syllable_in_word |
| = pam->d2_current_primary_phrase_word |
| = pam->e1_syllable_word_start |
| = pam->e1_syllable_word_end |
| = pam->e1_content |
| = pam->e2_syllable_word_start |
| = pam->e2_syllable_word_end |
| = pam->e3_e4_word |
| = pam->e3_e4_state |
| = pam->e5_e6_content_word |
| = pam->e5_e6_content |
| = pam->e7_e8_word |
| = pam->e7_e8_content |
| = pam->e7_e8_state |
| = pam->e9_e11_word |
| = pam->e9_e11_saw_word |
| = pam->e9_e11_state |
| = pam->e10_e12_e13_word |
| = pam->e10_e12_e13_state |
| = pam->e10_e12_e13_saw_word |
| = pam->f2_overall_word |
| = pam->f2_word_syllable |
| = pam->f2_next_word_syllable |
| = pam->f2_current_primary_phrase_word |
| = pam->g1_current_secondary_phrase_syllable |
| = pam->g1_current_syllable |
| = pam->g2_current_secondary_phrase_word |
| = pam->g2_current_word |
| = pam->h1_current_secondary_phrase_syll |
| = pam->h2_current_secondary_phrase_word |
| = pam->h3_h4_current_secondary_phrase_word |
| = pam->h5_current_phrase_type |
| = pam->h5_state |
| = pam->i1_secondary_phrase_syllable |
| = pam->i1_next_secondary_phrase_syllable |
| = pam->i2_secondary_phrase_word |
| = pam->i2_next_secondary_phrase_word |
| = 0; |
| /*Override 0 with 1*/ |
| pam->b4_b5_syllable = pam->b17_b19_syllable = pam->b18_b20_b21_syllable |
| = pam->e9_e11_word = pam->e10_e12_e13_word = pam->e7_e8_word |
| = pam->h2_current_secondary_phrase_word = 1; |
| /*Override 0 with -1*/ |
| pam->e1_syllable_word_start = pam->e1_syllable_word_end |
| = pam->e2_syllable_word_start = pam->e2_syllable_word_end = -1; |
| |
| return PICO_OK; |
| }/*pam_reset_processors_back*/ |
| |
| /** |
| * processes an input event for a specific feature |
| * @param this : pointer to PAM PU sub object pointer |
| * @param nFeat : feature column to process |
| * @param event_type : event id among syll/boundprim/boundsec/boundword |
| * @param direction : forward(0)/backward(1) |
| * @return PICO_OK : process OK |
| * @return PICO_ERR_OTHER : errors on getting pam sub obj pointer |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t pam_process_event_feature( |
| register picodata_ProcessingUnit this, picoos_uint8 nFeat, |
| picoos_uint8 event_type, picoos_uint8 direction) |
| { |
| picoos_uint8 sDest, nI; |
| picoos_uint16 syllCurr; |
| pam_subobj_t *pam; |
| if (NULL == this || NULL == this->subObj) { |
| return PICO_ERR_OTHER; |
| } |
| pam = (pam_subobj_t *) this->subObj; |
| syllCurr = pam->nCurrSyllable; |
| switch (nFeat) { |
| case A3: |
| /*processor for A3*/ |
| switch (direction) { |
| case PICOPAM_DIR_FORW: |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| if ((pam->sSyllFeats[pam->nCurrSyllable].phoneV[P1] |
| == 1) || (pam->a3_primary_phrase_syllable >= 1)) { |
| if (pam->a3_overall_syllable < 1) |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[A3] |
| = 0; |
| else |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[A3] |
| = pam->sSyllFeats[pam->nCurrSyllable |
| - 1].phoneV[B3]; |
| } else { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[A3] = 0; |
| } |
| pam->a3_primary_phrase_syllable++; |
| pam->a3_overall_syllable++; |
| } |
| if (event_type == PICOPAM_EVENT_P_BOUND) { |
| pam->a3_primary_phrase_syllable = 0; |
| } |
| break; |
| case PICOPAM_DIR_BACK: |
| /*do nothing*/ |
| break; |
| } |
| break; |
| case B1: |
| case B2: |
| case B3: |
| /*done in createSyllable*/ |
| break; |
| case B4:/*processor for B4,B5*/ |
| switch (direction) { |
| case PICOPAM_DIR_FORW: |
| sDest = B4; |
| break; |
| case PICOPAM_DIR_BACK: |
| sDest = B5; |
| break; |
| default: |
| sDest = B4; |
| break; |
| } |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| if (pam->sSyllFeats[pam->nCurrSyllable].phoneV[P1] == 0) { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[sDest] |
| = pam->b4_b5_syllable; |
| pam->b4_b5_syllable++; |
| } else { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[sDest] = 0; |
| } |
| } |
| if ((event_type == PICOPAM_EVENT_W_BOUND) || (event_type |
| == PICOPAM_EVENT_S_BOUND) || (event_type |
| == PICOPAM_EVENT_P_BOUND)) { |
| pam->b4_b5_syllable = 1; |
| } |
| break; |
| case B5:/*processor for B5 : done in B4*/ |
| break; |
| case B6:/*processor for B6,B7*/ |
| switch (direction) { |
| case PICOPAM_DIR_FORW: |
| sDest = B6; |
| break; |
| case PICOPAM_DIR_BACK: |
| sDest = B7; |
| break; |
| default: |
| sDest = B6; |
| break; |
| } |
| switch (pam->b6_b7_state) { |
| case 0: |
| if (event_type == PICOPAM_EVENT_SYLL) |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[sDest] |
| = PICOPAM_DONT_CARE_VALUE; |
| if (event_type == PICOPAM_EVENT_S_BOUND) { |
| pam->b6_b7_syllable = 1; |
| pam->b6_b7_state = 1; |
| } |
| break; |
| case 1: |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[sDest] |
| = pam->b6_b7_syllable; |
| pam->b6_b7_syllable++; |
| } |
| if (event_type == PICOPAM_EVENT_S_BOUND) { |
| pam->b6_b7_syllable = 1; |
| } |
| if (event_type == PICOPAM_EVENT_P_BOUND) { |
| pam->b6_b7_state = 0; |
| } |
| break; |
| default: |
| break; |
| } |
| break; |
| case B7:/*Done in B6*/ |
| break; |
| case B8:/*processor for B8,B9*/ |
| switch (direction) { |
| case PICOPAM_DIR_FORW: |
| sDest = B8; |
| break; |
| case PICOPAM_DIR_BACK: |
| sDest = B9; |
| break; |
| default: |
| sDest = B8; |
| break; |
| } |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[sDest] |
| = pam->b8_b9_stressed_syllable; |
| if (pam->sSyllFeats[pam->nCurrSyllable].phoneV[B1] == 1) |
| pam->b8_b9_stressed_syllable++; |
| } |
| if (event_type == PICOPAM_EVENT_P_BOUND) { |
| pam->b8_b9_stressed_syllable = 0; |
| } |
| |
| break; |
| case B9:/*done in B8*/ |
| break; |
| case B10:/*processor for B10, B11*/ |
| switch (direction) { |
| case PICOPAM_DIR_FORW: |
| sDest = B10; |
| break; |
| case PICOPAM_DIR_BACK: |
| sDest = B11; |
| break; |
| default: |
| sDest = B10; |
| break; |
| } |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[sDest] |
| = pam->b10_b11_accented_syllable; |
| if (pam->sSyllFeats[pam->nCurrSyllable].phoneV[B2] == 1) |
| pam->b10_b11_accented_syllable++; |
| } |
| if (event_type == PICOPAM_EVENT_P_BOUND) { |
| pam->b10_b11_accented_syllable = 0; |
| } |
| break; |
| case B11:/*done in B10*/ |
| break; |
| case B12:/*processor for B12,B13*/ |
| switch (direction) { |
| case PICOPAM_DIR_FORW: |
| sDest = B12; |
| break; |
| case PICOPAM_DIR_BACK: |
| sDest = B13; |
| break; |
| default: |
| sDest = B12; |
| break; |
| } |
| switch (pam->b12_b13_state) { |
| case 0: |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| if (pam->sSyllFeats[pam->nCurrSyllable].phoneV[B1] == 0) |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[sDest] |
| = PICOPAM_DONT_CARE_VALUE; |
| else { |
| pam->b12_b13_syllable = 0; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[sDest] |
| = PICOPAM_DONT_CARE_VALUE; |
| pam->b12_b13_state = 1; |
| } |
| } |
| break; |
| case 1: |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[sDest] |
| = pam->b12_b13_syllable; |
| if (pam->sSyllFeats[pam->nCurrSyllable].phoneV[B1] == 1) |
| pam->b12_b13_syllable = 0; |
| else |
| pam->b12_b13_syllable++; |
| pam->b12_b13_state = 2; |
| } |
| if (event_type == PICOPAM_EVENT_P_BOUND) |
| pam->b12_b13_state = 0; |
| break; |
| case 2: |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[sDest] |
| = pam->b12_b13_syllable; |
| if (pam->sSyllFeats[pam->nCurrSyllable].phoneV[B1] == 1) |
| pam->b12_b13_syllable = 0; |
| else |
| pam->b12_b13_syllable++; |
| } |
| if (event_type == PICOPAM_EVENT_P_BOUND) |
| pam->b12_b13_state = 0; |
| |
| break; |
| default: |
| break; |
| } |
| break; |
| case B13:/*done in B12*/ |
| break; |
| |
| case B14:/*processor for B14, B15*/ |
| switch (direction) { |
| case PICOPAM_DIR_FORW: |
| sDest = B14; |
| break; |
| case PICOPAM_DIR_BACK: |
| sDest = B15; |
| break; |
| default: |
| sDest = B14; |
| break; |
| } |
| switch (pam->b14_b15_state) { |
| case 0: |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| if (pam->sSyllFeats[pam->nCurrSyllable].phoneV[B2] == 0) |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[sDest] |
| = PICOPAM_DONT_CARE_VALUE; |
| else { |
| pam->b14_b15_syllable = 0; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[sDest] |
| = PICOPAM_DONT_CARE_VALUE; |
| pam->b14_b15_state = 1; |
| } |
| } |
| break; |
| case 1: |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[sDest] |
| = pam->b14_b15_syllable; |
| if (pam->sSyllFeats[pam->nCurrSyllable].phoneV[B2] == 1) |
| pam->b14_b15_syllable = 0; |
| else |
| pam->b14_b15_syllable++; |
| pam->b14_b15_state = 2; |
| } |
| if (event_type == PICOPAM_EVENT_P_BOUND) { |
| pam->b14_b15_state = 0; |
| } |
| break; |
| case 2: |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[sDest] |
| = pam->b14_b15_syllable; |
| if (pam->sSyllFeats[pam->nCurrSyllable].phoneV[B2] == 1) |
| pam->b14_b15_syllable = 0; |
| else |
| pam->b14_b15_syllable++; |
| } |
| if (event_type == PICOPAM_EVENT_P_BOUND) { |
| pam->b14_b15_state = 0; |
| } |
| break; |
| default: |
| break; |
| } |
| break; |
| case B15:/*Processor for B15 : done in B14*/ |
| break; |
| case B16:/*done in createSyllable*/ |
| break; |
| case B17:/*processor for B17, B19 unified */ |
| switch (direction) { |
| case PICOPAM_DIR_FORW: |
| switch (pam->b17_b19_state) { |
| case 0: |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[B17] |
| = PICOPAM_DONT_CARE_VALUE; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[B19] |
| = pam->b17_b19_syllable; |
| pam->b17_b19_syllable++; |
| } |
| if (((event_type == PICOPAM_EVENT_P_BOUND) |
| || (event_type == PICOPAM_EVENT_S_BOUND)) |
| && (pam->b17_b19_syllable > 1)) { |
| if (event_type == PICOPAM_EVENT_P_BOUND) |
| pam->b17_b19_syllable = 1; |
| pam->b17_b19_state = 1; |
| } |
| break; |
| case 1: |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[B17] |
| = pam->b17_b19_syllable; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[B19] |
| = PICOPAM_DONT_CARE_VALUE; |
| pam->b17_b19_syllable++; |
| } |
| if (event_type == PICOPAM_EVENT_P_BOUND) { |
| pam->b17_b19_syllable = 1; |
| } |
| break; |
| default: |
| break; |
| } |
| break; |
| case PICOPAM_DIR_BACK: |
| /*do nothing*/ |
| break; |
| } |
| break; |
| case B18:/*processor for B18, B20, B21 unfied*/ |
| switch (direction) { |
| case PICOPAM_DIR_FORW:/*do nothing*/ |
| break; |
| case PICOPAM_DIR_BACK: |
| switch (pam->b18_b20_b21_state) { |
| case 0: |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[B18] |
| = PICOPAM_DONT_CARE_VALUE; |
| if (pam->sSyllFeats[pam->nCurrSyllable].phoneV[P6] |
| == PICOPAM_DECLARATIVE) { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[B20] |
| = pam->b18_b20_b21_syllable; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[B21] |
| = PICOPAM_DONT_CARE_VALUE; |
| } else { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[B20] |
| = PICOPAM_DONT_CARE_VALUE; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[B21] |
| = pam->b18_b20_b21_syllable; |
| } |
| pam->b18_b20_b21_syllable++; |
| } |
| if (((event_type == PICOPAM_EVENT_P_BOUND) |
| || (event_type == PICOPAM_EVENT_S_BOUND)) |
| && (pam->b18_b20_b21_syllable > 1)) { |
| if (event_type == PICOPAM_EVENT_P_BOUND) |
| pam->b18_b20_b21_syllable = 1; |
| pam->b18_b20_b21_state = 1; |
| } |
| break; |
| case 1: |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[B18] |
| = pam->b18_b20_b21_syllable; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[B20] |
| = PICOPAM_DONT_CARE_VALUE; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[B21] |
| = PICOPAM_DONT_CARE_VALUE; |
| pam->b18_b20_b21_syllable++; |
| } |
| if (event_type == PICOPAM_EVENT_P_BOUND) { |
| pam->b18_b20_b21_syllable = 1; |
| } |
| break; |
| default: |
| break; |
| } |
| break; |
| } |
| break; |
| case B19:/*processor for B19 : done in B17*/ |
| break; |
| case B20:/*processor for B20 : done in B18*/ |
| break; |
| case B21:/*processor for B21 : done in B18*/ |
| break; |
| case C3:/*processor for C3*/ |
| switch (direction) { |
| case PICOPAM_DIR_FORW: |
| /*do nothing*/ |
| break; |
| case PICOPAM_DIR_BACK: |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| if ((pam->sSyllFeats[pam->nCurrSyllable].phoneV[P1] |
| == 1) || (pam->c3_primary_phrase_syllable >= 1)) { |
| if (pam->c3_overall_syllable < 1) |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[C3] |
| = 0; |
| else |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[C3] |
| = pam->sSyllFeats[pam->nCurrSyllable |
| + 1].phoneV[B3]; |
| } else { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[C3] = 0; |
| } |
| pam->c3_primary_phrase_syllable++; |
| pam->c3_overall_syllable++; |
| } |
| if (event_type == PICOPAM_EVENT_P_BOUND) { |
| pam->c3_primary_phrase_syllable = 0; |
| } |
| break; |
| } |
| break; |
| case D2:/*processor for D2*/ |
| switch (direction) { |
| case PICOPAM_DIR_FORW: |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| if ((pam->sSyllFeats[pam->nCurrSyllable].phoneV[P1] |
| == 1) || (pam->d2_current_primary_phrase_word |
| >= 1)) |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[D2] |
| = pam->d2_prev_syllable_in_word; |
| else |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[D2] = 0; |
| |
| pam->d2_syllable_in_word++; |
| } |
| if ((event_type == PICOPAM_EVENT_W_BOUND) || (event_type |
| == PICOPAM_EVENT_S_BOUND) || (event_type |
| == PICOPAM_EVENT_P_BOUND)) { |
| pam->d2_current_primary_phrase_word = 1; |
| pam->d2_prev_syllable_in_word |
| = pam->d2_syllable_in_word; |
| pam->d2_syllable_in_word = 0; |
| /*pam->d2_current_primary_phrase_word++;*/ |
| } |
| if ((event_type == PICOPAM_EVENT_P_BOUND)) { |
| pam->d2_current_primary_phrase_word = 0; |
| } |
| break; |
| case PICOPAM_DIR_BACK: |
| /*do nothing*/ |
| break; |
| } |
| break; |
| case E1:/*processor for E1*/ |
| switch (direction) { |
| case PICOPAM_DIR_FORW: /*remember : content syllable indicator already on P5*/ |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| if (pam->e1_syllable_word_start == -1) |
| pam->e1_syllable_word_start |
| = (picoos_int8) pam->nCurrSyllable; |
| if (pam->sSyllFeats[pam->nCurrSyllable].phoneV[P5] == 1) |
| pam->e1_content = 1; |
| pam->e1_syllable_word_end |
| = (picoos_int8) pam->nCurrSyllable; |
| } |
| if ((event_type == PICOPAM_EVENT_W_BOUND) || (event_type |
| == PICOPAM_EVENT_S_BOUND) || (event_type |
| == PICOPAM_EVENT_P_BOUND)) { |
| if ((pam->e1_syllable_word_start != -1) |
| && (pam->e1_syllable_word_end != -1)) { |
| for (nI = pam->e1_syllable_word_start; nI |
| <= pam->e1_syllable_word_end; nI++) |
| pam->sSyllFeats[nI].phoneV[E1] |
| = pam->e1_content; |
| } |
| pam->e1_content = 0; |
| pam->e1_syllable_word_start = -1; |
| pam->e1_syllable_word_end = -1; |
| } |
| break; |
| case PICOPAM_DIR_BACK: |
| /*do nothing*/ |
| break; |
| } |
| break; |
| case E2:/*processor for E2*/ |
| switch (direction) { |
| case PICOPAM_DIR_FORW: |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| if (pam->e2_syllable_word_start == -1) |
| pam->e2_syllable_word_start |
| = (picoos_int8) pam->nCurrSyllable; |
| pam->e2_syllable_word_end |
| = (picoos_int8) pam->nCurrSyllable; |
| } |
| if ((event_type == PICOPAM_EVENT_W_BOUND) || (event_type |
| == PICOPAM_EVENT_S_BOUND) || (event_type |
| == PICOPAM_EVENT_P_BOUND)) { |
| if ((pam->e2_syllable_word_start != -1) |
| && (pam->e2_syllable_word_end != -1)) { |
| for (nI = pam->e2_syllable_word_start; nI |
| <= pam->e2_syllable_word_end; nI++) |
| pam->sSyllFeats[nI].phoneV[E2] |
| = pam->e2_syllable_word_end |
| - pam->e2_syllable_word_start |
| + 1; |
| } |
| pam->e1_content = 0; |
| pam->e2_syllable_word_start = -1; |
| pam->e2_syllable_word_end = -1; |
| } |
| break; |
| case PICOPAM_DIR_BACK: |
| break; |
| } |
| break; |
| case E3:/*processor for E3,E4*/ |
| switch (direction) { |
| case PICOPAM_DIR_FORW: |
| sDest = E3; |
| break; |
| case PICOPAM_DIR_BACK: |
| sDest = E4; |
| break; |
| default: |
| sDest = E3; |
| break; |
| } |
| switch (pam->e3_e4_state) { |
| case 0: |
| if (event_type == PICOPAM_EVENT_SYLL) |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[sDest] |
| = PICOPAM_DONT_CARE_VALUE; |
| if (event_type == PICOPAM_EVENT_S_BOUND) { |
| pam->e3_e4_word = 1; |
| pam->e3_e4_state = 1; |
| } |
| break; |
| case 1: |
| if (event_type == PICOPAM_EVENT_SYLL) |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[sDest] |
| = pam->e3_e4_word; |
| if (event_type == PICOPAM_EVENT_S_BOUND) |
| pam->e3_e4_word = 1; |
| if (event_type == PICOPAM_EVENT_W_BOUND) |
| pam->e3_e4_word++; |
| if (event_type == PICOPAM_EVENT_P_BOUND) |
| pam->e3_e4_state = 0; |
| break; |
| default: |
| break; |
| } |
| break; |
| case E4:/*processor for E4 : done in E3*/ |
| break; |
| case E5:/*processor for E5,E6*/ |
| switch (direction) { |
| case PICOPAM_DIR_FORW: |
| sDest = E5; |
| break; |
| case PICOPAM_DIR_BACK: |
| sDest = E6; |
| break; |
| default: |
| sDest = E5; |
| break; |
| } |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[sDest] |
| = pam->e5_e6_content_word; |
| if (pam->sSyllFeats[pam->nCurrSyllable].phoneV[P5] == 1) |
| pam->e5_e6_content = 1; |
| } |
| if ((event_type == PICOPAM_EVENT_W_BOUND) || (event_type |
| == PICOPAM_EVENT_S_BOUND) || (event_type |
| == PICOPAM_EVENT_P_BOUND)) { |
| if (pam->e5_e6_content == 1) |
| pam->e5_e6_content_word++; |
| pam->e5_e6_content = 0; |
| if (event_type == PICOPAM_EVENT_P_BOUND) |
| pam->e5_e6_content_word = 0; |
| } |
| break; |
| case E6:/*processor for E6 : done in E5*/ |
| break; |
| case E7:/*processor for E7,E8*/ |
| switch (direction) { |
| case PICOPAM_DIR_FORW: |
| sDest = E7; |
| break; |
| case PICOPAM_DIR_BACK: |
| sDest = E8; |
| break; |
| default: |
| sDest = E7; |
| break; |
| } |
| switch (pam->e7_e8_state) { |
| case 0: |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[sDest] |
| = PICOPAM_DONT_CARE_VALUE; |
| if (pam->sSyllFeats[pam->nCurrSyllable].phoneV[P5] == 1) |
| pam->e7_e8_content = 1; |
| } |
| if (event_type == PICOPAM_EVENT_P_BOUND) { |
| pam->e7_e8_content = 0; |
| } |
| |
| if ((event_type == PICOPAM_EVENT_W_BOUND) || (event_type |
| == PICOPAM_EVENT_S_BOUND)) { |
| if (pam->e7_e8_content == 1) { |
| pam->e7_e8_word = 0; |
| pam->e7_e8_content = 0; |
| pam->e7_e8_state = 1; |
| } |
| } |
| break; |
| case 1: |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[sDest] |
| = pam->e7_e8_word; |
| if (pam->sSyllFeats[pam->nCurrSyllable].phoneV[P5] == 1) |
| pam->e7_e8_content = 1; |
| } |
| if ((event_type == PICOPAM_EVENT_W_BOUND) || (event_type |
| == PICOPAM_EVENT_S_BOUND)) { |
| if (pam->e7_e8_content == 1) { |
| pam->e7_e8_word = 0; |
| pam->e7_e8_content = 0; |
| } else { |
| pam->e7_e8_word++; |
| } |
| } |
| if (event_type == PICOPAM_EVENT_P_BOUND) { |
| pam->e7_e8_state = 0; |
| pam->e7_e8_content = 0; /*<<<<<< added */ |
| } |
| |
| default: |
| break; |
| } |
| break; |
| case E8:/*processor for E8 : done in E7*/ |
| break; |
| case E9: |
| /*processor for E9, E11*/ |
| switch (direction) { |
| case PICOPAM_DIR_FORW: |
| switch (pam->e9_e11_state) { |
| case 0: |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[E9] |
| = PICOPAM_DONT_CARE_VALUE; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[E11] |
| = pam->e9_e11_word; |
| pam->e9_e11_saw_word = 1; /*new variable, needs to be initialized to 0*/ |
| } |
| if (event_type == PICOPAM_EVENT_W_BOUND) |
| pam->e9_e11_word++; |
| if (((event_type == PICOPAM_EVENT_P_BOUND) |
| || (event_type == PICOPAM_EVENT_S_BOUND)) |
| && (pam->e9_e11_saw_word == 1)) { /* modified*/ |
| if (event_type == PICOPAM_EVENT_P_BOUND) |
| pam->e9_e11_word = 1; |
| else |
| pam->e9_e11_word++; /*modified*/ |
| pam->e9_e11_state = 1; |
| } |
| break; |
| case 1: |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[E9] |
| = pam->e9_e11_word; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[E11] |
| = PICOPAM_DONT_CARE_VALUE; |
| } |
| if ((event_type == PICOPAM_EVENT_W_BOUND) |
| || (event_type == PICOPAM_EVENT_S_BOUND)) |
| pam->e9_e11_word++; |
| if (event_type == PICOPAM_EVENT_P_BOUND) |
| pam->e9_e11_word = 1; |
| break; |
| default: |
| break; |
| } |
| break; |
| case PICOPAM_DIR_BACK: |
| /*do nothing*/ |
| break; |
| } |
| break; |
| case E10:/*processor for E10, E12, E13 unified*/ |
| switch (direction) { |
| case PICOPAM_DIR_FORW:/*do nothing*/ |
| break; |
| case PICOPAM_DIR_BACK: |
| switch (pam->e10_e12_e13_state) { |
| case 0: |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[E10] |
| = PICOPAM_DONT_CARE_VALUE; |
| pam->e10_e12_e13_saw_word = 1; |
| if (pam->sSyllFeats[pam->nCurrSyllable].phoneV[P6] |
| == PICOPAM_DECLARATIVE) { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[E12] |
| = pam->e10_e12_e13_word; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[E13] |
| = PICOPAM_DONT_CARE_VALUE; |
| } else { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[E12] |
| = PICOPAM_DONT_CARE_VALUE; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[E13] |
| = pam->e10_e12_e13_word; |
| } |
| } |
| if (event_type == PICOPAM_EVENT_W_BOUND) |
| pam->e10_e12_e13_word++; |
| |
| /*if (((event_type==PICOPAM_EVENT_P_BOUND)||(event_type==PICOPAM_EVENT_S_BOUND))&&(pam->e10_e12_e13_word>1)) {*/ |
| if (((event_type == PICOPAM_EVENT_P_BOUND) |
| || (event_type == PICOPAM_EVENT_S_BOUND)) |
| && (pam->e10_e12_e13_saw_word > 0)) { |
| if (event_type == PICOPAM_EVENT_P_BOUND) |
| pam->e10_e12_e13_word = 1; |
| else |
| pam->e10_e12_e13_word++; |
| pam->e10_e12_e13_state = 1; |
| } |
| break; |
| case 1: |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[E10] |
| = pam->e10_e12_e13_word; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[E12] |
| = PICOPAM_DONT_CARE_VALUE; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[E13] |
| = PICOPAM_DONT_CARE_VALUE; |
| } |
| if ((event_type == PICOPAM_EVENT_W_BOUND) |
| || (event_type == PICOPAM_EVENT_S_BOUND)) |
| pam->e10_e12_e13_word++; |
| if (event_type == PICOPAM_EVENT_P_BOUND) |
| pam->e10_e12_e13_word = 1; |
| break; |
| default: |
| break; |
| } |
| break; |
| } |
| break; |
| |
| case E11:/*processor for E11 : done in E9*/ |
| break; |
| case E12:/*processor for E12 : done in E10*/ |
| break; |
| case E13:/*processor for E13 : done in E10*/ |
| break; |
| |
| case F2: |
| switch (direction) { |
| case PICOPAM_DIR_FORW:/*do nothing*/ |
| break; |
| case PICOPAM_DIR_BACK: |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| if (pam->f2_current_primary_phrase_word >= 1)/*at least second word in current primary phrase*/ |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[F2] |
| = pam->f2_next_word_syllable; |
| else |
| /*first word in current primary phrase*/ |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[F2] = 0; |
| pam->f2_word_syllable++; |
| } |
| if ((event_type == PICOPAM_EVENT_W_BOUND) || (event_type |
| == PICOPAM_EVENT_S_BOUND) || (event_type |
| == PICOPAM_EVENT_P_BOUND)) {/*word - end : switch*/ |
| pam->f2_next_word_syllable = pam->f2_word_syllable; |
| pam->f2_word_syllable = 0; |
| } |
| if (event_type == PICOPAM_EVENT_P_BOUND)/*mark first word in current primary phrase*/ |
| pam->f2_current_primary_phrase_word = 0; |
| else /*mark next word in current primary phrase(enables output in PICOPAM_EVENT_SYLL)*/ |
| if ((event_type == PICOPAM_EVENT_W_BOUND) || (event_type |
| == PICOPAM_EVENT_S_BOUND)) |
| pam->f2_current_primary_phrase_word++; |
| break; |
| } |
| break; |
| case G1: |
| switch (direction) { |
| case PICOPAM_DIR_FORW: |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| if (pam->g1_current_secondary_phrase_syllable > 0) |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[G1] |
| = pam->g1_current_secondary_phrase_syllable; |
| else |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[G1] = 0; |
| pam->g1_current_syllable++; |
| } |
| if (event_type == PICOPAM_EVENT_S_BOUND) { |
| pam->g1_current_secondary_phrase_syllable |
| = pam->g1_current_syllable; |
| pam->g1_current_syllable = 0; |
| } |
| if (event_type == PICOPAM_EVENT_P_BOUND) { |
| pam->g1_current_secondary_phrase_syllable = 0; |
| pam->g1_current_syllable = 0; |
| } |
| case PICOPAM_DIR_BACK: /*do nothing*/ |
| break; |
| } |
| break; |
| case G2: |
| switch (direction) { |
| case PICOPAM_DIR_FORW: |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| if (pam->g2_current_secondary_phrase_word > 0) |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[G2] |
| = pam->g2_current_secondary_phrase_word; |
| else |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[G2] = 0; |
| } |
| if (event_type == PICOPAM_EVENT_W_BOUND) |
| pam->g2_current_word++; |
| |
| if (event_type == PICOPAM_EVENT_S_BOUND) { |
| pam->g2_current_secondary_phrase_word |
| = pam->g2_current_word + 1; |
| pam->g2_current_word = 0; |
| } |
| if (event_type == PICOPAM_EVENT_P_BOUND) { |
| pam->g2_current_secondary_phrase_word = 0; |
| pam->g2_current_word = 0; |
| } |
| break; |
| case PICOPAM_DIR_BACK: /*do nothing*/ |
| break; |
| } |
| break; |
| case H1: |
| switch (direction) { |
| case PICOPAM_DIR_FORW: |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| pam->h1_current_secondary_phrase_syll++; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[H1] |
| = pam->h1_current_secondary_phrase_syll; |
| } |
| if ((event_type == PICOPAM_EVENT_S_BOUND) || (event_type |
| == PICOPAM_EVENT_P_BOUND)) |
| pam->h1_current_secondary_phrase_syll = 0; |
| break; |
| case PICOPAM_DIR_BACK: |
| if (event_type == PICOPAM_EVENT_SYLL) |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[H1] |
| = pam->h1_current_secondary_phrase_syll; |
| if (event_type == PICOPAM_EVENT_S_BOUND) |
| pam->h1_current_secondary_phrase_syll |
| = pam->sSyllFeats[pam->nCurrSyllable].phoneV[H1]; |
| if (event_type == PICOPAM_EVENT_P_BOUND) |
| pam->h1_current_secondary_phrase_syll |
| = pam->sSyllFeats[pam->nCurrSyllable - 1].phoneV[H1]; |
| break; |
| } |
| break; |
| case H2: |
| switch (direction) { |
| case PICOPAM_DIR_FORW: |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[H2] |
| = pam->h2_current_secondary_phrase_word; |
| } |
| if (event_type == PICOPAM_EVENT_W_BOUND) { |
| pam->h2_current_secondary_phrase_word++; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[H2] |
| = pam->h2_current_secondary_phrase_word; |
| } |
| if (event_type == PICOPAM_EVENT_S_BOUND) { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[H2] |
| = pam->h2_current_secondary_phrase_word + 1; |
| pam->h2_current_secondary_phrase_word = 0; |
| } |
| if (event_type == PICOPAM_EVENT_P_BOUND) { |
| if (pam->nCurrSyllable > 1) |
| pam->sSyllFeats[pam->nCurrSyllable - 1].phoneV[H2] |
| = pam->h2_current_secondary_phrase_word + 1; |
| pam->h2_current_secondary_phrase_word = 0; |
| } |
| break; |
| case PICOPAM_DIR_BACK: |
| if (event_type == PICOPAM_EVENT_SYLL) |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[H2] |
| = pam->h2_current_secondary_phrase_word; |
| if (event_type == PICOPAM_EVENT_S_BOUND) |
| pam->h2_current_secondary_phrase_word |
| = pam->sSyllFeats[pam->nCurrSyllable].phoneV[H2]; |
| if (event_type == PICOPAM_EVENT_P_BOUND) |
| pam->h2_current_secondary_phrase_word |
| = pam->sSyllFeats[pam->nCurrSyllable - 1].phoneV[H2]; |
| break; |
| } |
| break; |
| case H3:/*processor for H3,H4 unified */ |
| switch (direction) { |
| case PICOPAM_DIR_FORW: |
| sDest = H3; |
| break; |
| case PICOPAM_DIR_BACK: |
| sDest = H4; |
| break; |
| default: |
| sDest = H3; |
| break; |
| } |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[sDest] |
| = pam->h3_h4_current_secondary_phrase_word; |
| } |
| if ((event_type == PICOPAM_EVENT_S_BOUND) || (event_type |
| == PICOPAM_EVENT_P_BOUND)) |
| pam->h3_h4_current_secondary_phrase_word++; |
| break; |
| case H4: /*processor for H4 : already in H3*/ |
| break; |
| |
| case H5:/*processor for H5*/ |
| switch (direction) { |
| case PICOPAM_DIR_FORW: |
| break; |
| case PICOPAM_DIR_BACK: |
| switch (pam->h5_state) { |
| case 0: |
| if (event_type == PICOPAM_EVENT_SYLL) |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[H5] |
| = pam->sSyllFeats[pam->nCurrSyllable].phoneV[H5]; |
| if (event_type == PICOPAM_EVENT_S_BOUND) { |
| pam->h5_state = 1; |
| } |
| break; |
| case 1: |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| if ((pam->sSyllFeats[pam->nCurrSyllable].phoneV[H5] |
| == PICOPAM_P) |
| && (pam->sSyllFeats[pam->nCurrSyllable].phoneV[P1] |
| == 0)) |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[H5] |
| = PICOPAM_p; |
| } |
| if (event_type == PICOPAM_EVENT_P_BOUND) { |
| pam->h5_state = 0; |
| } |
| break; |
| default: |
| break; |
| } |
| break; |
| |
| default: |
| break; |
| } |
| break; |
| |
| case I1:/*processor for I1*/ |
| switch (direction) { |
| case PICOPAM_DIR_FORW: |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| pam->i1_secondary_phrase_syllable++; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[I1] |
| = pam->i1_secondary_phrase_syllable; |
| } |
| if ((event_type == PICOPAM_EVENT_S_BOUND) || (event_type |
| == PICOPAM_EVENT_P_BOUND)) |
| pam->i1_secondary_phrase_syllable = 0; |
| break; |
| case PICOPAM_DIR_BACK: |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[I1] |
| = pam->i1_next_secondary_phrase_syllable; |
| } |
| if (event_type == PICOPAM_EVENT_S_BOUND) { |
| pam->i1_next_secondary_phrase_syllable |
| = pam->i1_secondary_phrase_syllable; |
| pam->i1_secondary_phrase_syllable |
| = pam->sSyllFeats[pam->nCurrSyllable].phoneV[I1]; |
| } |
| if (event_type == PICOPAM_EVENT_P_BOUND) { |
| pam->i1_next_secondary_phrase_syllable = 0; |
| pam->i1_secondary_phrase_syllable |
| = pam->sSyllFeats[pam->nCurrSyllable - 1].phoneV[I1]; |
| } |
| break; |
| } |
| break; |
| case I2: /*processor for I2*/ |
| switch (direction) { |
| case PICOPAM_DIR_FORW: |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[I2] |
| = pam->i2_secondary_phrase_word; |
| } |
| if (event_type == PICOPAM_EVENT_W_BOUND) |
| pam->i2_secondary_phrase_word++; |
| |
| if ((event_type == PICOPAM_EVENT_P_BOUND) || (event_type |
| == PICOPAM_EVENT_S_BOUND)) |
| pam->i2_secondary_phrase_word = 1; |
| |
| break; |
| case PICOPAM_DIR_BACK: |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[I2] |
| = pam->i2_next_secondary_phrase_word; |
| } |
| if (event_type == PICOPAM_EVENT_S_BOUND) { |
| pam->i2_next_secondary_phrase_word |
| = pam->i2_secondary_phrase_word; |
| pam->i2_secondary_phrase_word |
| = pam->sSyllFeats[pam->nCurrSyllable].phoneV[I2]; |
| } |
| if (event_type == PICOPAM_EVENT_P_BOUND) { |
| pam->i2_next_secondary_phrase_word = 0; |
| pam->i2_secondary_phrase_word |
| = pam->sSyllFeats[pam->nCurrSyllable - 1].phoneV[I2]; |
| } |
| break; |
| } |
| break; |
| case J1: /*processor for J1 */ |
| switch (direction) { |
| case PICOPAM_DIR_FORW: |
| if (event_type == PICOPAM_EVENT_SYLL) { |
| if (pam->sSyllFeats[pam->nCurrSyllable].phoneV[P1] != 1) |
| pam->j1_utterance_syllable++; |
| } |
| break; |
| case PICOPAM_DIR_BACK: |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[J1] |
| = pam->j1_utterance_syllable; |
| break; |
| } |
| break; |
| case J2: /*processor for J2*/ |
| switch (direction) { |
| case PICOPAM_DIR_FORW: |
| if ((event_type == PICOPAM_EVENT_W_BOUND) || (event_type |
| == PICOPAM_EVENT_S_BOUND) || (event_type |
| == PICOPAM_EVENT_P_BOUND)) |
| pam->j2_utterance_word++; |
| break; |
| case PICOPAM_DIR_BACK: |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[J2] |
| = pam->j2_utterance_word - 1; |
| break; |
| } |
| break; |
| case J3: /*processor for J3*/ |
| switch (direction) { |
| case PICOPAM_DIR_FORW: |
| if (event_type == PICOPAM_EVENT_S_BOUND) { |
| pam->j3_utterance_sec_phrases++; |
| break; |
| } |
| if (event_type == PICOPAM_EVENT_P_BOUND) { |
| pam->j3_utterance_sec_phrases++; |
| break; |
| } |
| break; |
| case PICOPAM_DIR_BACK: |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[J3] |
| = pam->j3_utterance_sec_phrases - 1; |
| break; |
| } |
| break; |
| } |
| return PICO_OK; |
| }/*pam_process_event_feature*/ |
| |
| /** |
| * processes an input event spanning it to all column features |
| * @param this : pointer to PAM PU sub object pointer |
| * @param event_type : event id among syll/boundprim/boundsec/boundword |
| * @param direction : forward(0)/backward(1) |
| * @return PICO_OK : process OK |
| * @return PICO_ERR_OTHER : errors on getting pam sub obj pointer |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t pam_process_event(register picodata_ProcessingUnit this, |
| picoos_uint8 event_type, picoos_uint8 direction) |
| { |
| picoos_uint8 nFeat; |
| pico_status_t nResult; |
| |
| pam_subobj_t *pam; |
| if (NULL == this || NULL == this->subObj) { |
| return PICO_ERR_OTHER; |
| } |
| pam = (pam_subobj_t *) this->subObj; |
| |
| if (direction == PICOPAM_DIR_FORW) { |
| if (event_type == PICOPAM_EVENT_P_BOUND) |
| /*primary boundary*/ |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[P2] = 1; |
| if (event_type == PICOPAM_EVENT_S_BOUND) |
| /*secondary boundary*/ |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[P3] = 1; |
| if (event_type == PICOPAM_EVENT_W_BOUND) |
| /*word boundary*/ |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[P4] = 1; |
| } |
| for (nFeat = A3; nFeat <= J3; nFeat++) { |
| nResult = pam_process_event_feature(this, nFeat, event_type, direction); |
| if (nResult != PICO_OK) |
| return nResult; |
| } |
| return PICO_OK; |
| }/*pam_process_event*/ |
| |
| /** |
| * inserts a syllable inside the subobj sentence data struct. |
| * @param this : pointer to PAM PU sub object pointer |
| * @param syllType : the syllable type (pause/syllable) |
| * @param sContent : the item content |
| * @param sentType : the sentence type |
| * @param phType : the phrase type |
| * @param uBoundType : the boundary type (only for silence syllables) |
| * @param uMinDur, uMaxDur : the mimimum and maximum duration (only for silence syllables) |
| * @return PICO_OK : syllable creation successful |
| * @return PICO_ERR_OTHER : errors in one internal function (check_phones_size..) |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t pam_create_syllable(register picodata_ProcessingUnit this, |
| picoos_uint8 syllType, picoos_uint8 *sContent, picoos_uint8 sentType, |
| picoos_uint8 phType, picoos_uint8 uBoundType, picoos_uint16 uMinDur, |
| picoos_uint16 uMaxDur) |
| { |
| pam_subobj_t *pam; |
| picoos_uint8 nI; |
| picoos_uint8 pos; |
| /* picoos_uint8 *npUi16; */ |
| picoos_uint32 pos32; |
| |
| if (NULL == this || NULL == this->subObj) { |
| return PICO_ERR_OTHER; |
| } |
| pam = (pam_subobj_t *) this->subObj; |
| pos = 0; |
| /*check buffer full condition on number of syllables*/ |
| if (check_syllables_size(pam, 1) != PICO_OK) { |
| return PICO_ERR_OTHER; |
| } |
| |
| if (syllType == PICOPAM_SYLL_PAUSE) { |
| /*check buffer full condition on number of phonemes*/ |
| if (check_phones_size(pam, 1) != PICO_OK) { |
| return PICO_ERR_OTHER; |
| } |
| } |
| if (syllType == PICOPAM_SYLL_SYLL) { |
| /*check item availability*/ |
| if (sContent == NULL) { |
| return PICO_ERR_OTHER; |
| } |
| /*check buffer full condition on number of phonemes*/ |
| if (check_phones_size(pam, sContent[3]) != PICO_OK) { |
| return PICO_ERR_OTHER; |
| } |
| } |
| |
| /*open new syllable*/ |
| pam->nCurrSyllable = pam->nCurrSyllable + 1; |
| /*cleanup*/ |
| for (nI = 0; nI < PICOPAM_VECT_SIZE; nI++) { |
| if (pam->nCurrSyllable > 0) { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[nI] = 0; |
| } else { |
| if ((nI >= ITM) && (nI <= itm)) { |
| if (pam->sSyllFeats[pam->nCurrSyllable].phoneV[nI] > 0) { |
| /*do not cleanup "attached item offset" fields (ITM, itm): |
| an already existing attached item could be lost*/ |
| } else { |
| /*cleanup "attached item offset"*/ |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[nI] = 0; |
| } |
| } else { |
| /*cleanup all fields except "attached item offset" (ITM, itm)*/ |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[nI] = 0; |
| } |
| } |
| } |
| /*set minimum and maximum duration values*/ |
| if ((uMinDur == 0) && (uMaxDur == 0) && (syllType == PICOPAM_SYLL_PAUSE)) { |
| /*both 0 : use default duration limits for boundaries*/ |
| get_default_boundary_limit(uBoundType, &uMinDur, &uMaxDur); |
| } |
| if (uMinDur > 0) { |
| pos32 = Min; |
| picoos_write_mem_pi_uint16(pam->sSyllFeats[pam->nCurrSyllable].phoneV, |
| &pos32, uMinDur); |
| } |
| if (uMaxDur > 0) { |
| pos32 = Max; |
| picoos_write_mem_pi_uint16(pam->sSyllFeats[pam->nCurrSyllable].phoneV, |
| &pos32, uMaxDur); |
| } |
| /*END OF BREAK COMMAND SUPPORT*/ |
| |
| if (syllType == PICOPAM_SYLL_PAUSE) { |
| /*initialize a pause syllable*/ |
| if (sentType == PICOPAM_DECLARATIVE) |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[P6] |
| = PICOPAM_DECLARATIVE; |
| if (sentType == PICOPAM_INTERROGATIVE) |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[P6] |
| = PICOPAM_INTERROGATIVE; |
| |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[bnd] = uBoundType; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[P1] = 1; /*this means the syllable contains a pause-silence*/ |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[P8] = 1; |
| |
| /*b1,b2,b9,b11,b13,b15,e1,e6,e8,e10 already set to 0*/ |
| |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[B3] |
| = pam->sSyllFeats[pam->nCurrSyllable].phoneV[B4] |
| = pam->sSyllFeats[pam->nCurrSyllable].phoneV[B5] |
| = pam->sSyllFeats[pam->nCurrSyllable].phoneV[B6] |
| = pam->sSyllFeats[pam->nCurrSyllable].phoneV[B7] |
| = 1; |
| |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[B16] |
| = PICOPAM_PH_DONT_CARE_VAL; /*name of the vowel in the syllable = NONE */ |
| |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[E2] |
| = pam->sSyllFeats[pam->nCurrSyllable].phoneV[E3] |
| = pam->sSyllFeats[pam->nCurrSyllable].phoneV[E4] = 1; |
| |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[H5] = phType; |
| |
| /*Store current phonetic codes in input phonetic string*/ |
| pam->sPhIds[pam->nCurrPhoneme] = pam_get_pause_id(this); |
| picoos_mem_copy((void*) &pam->nCurrPhoneme, |
| &(pam->sSyllFeats[pam->nCurrSyllable].phoneV[FID]), |
| sizeof(pam->nCurrPhoneme)); |
| pam->nCurrPhoneme++; |
| pam->nTotalPhonemes++; |
| /*add 1 to total number of syllables*/ |
| pam->nTotalSyllables++; |
| |
| return PICO_OK; |
| } |
| if (syllType == PICOPAM_SYLL_SYLL) { |
| /*initialize a real syllable*/ |
| if (sContent[2] > PICODATA_ACC0) |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[P5] = 1; /*set content syllable indicator*/ |
| if (sentType == PICOPAM_DECLARATIVE) |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[P6] |
| = PICOPAM_DECLARATIVE; |
| if (sentType == PICOPAM_INTERROGATIVE) |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[P6] |
| = PICOPAM_INTERROGATIVE; |
| |
| if ((sContent[2] >= PICODATA_ACC1) && (sContent[2] <= PICODATA_ACC4)) |
| /*stressed*/ |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[B1] = 1; |
| |
| if ((sContent[2] >= PICODATA_ACC1) && (sContent[2] <= PICODATA_ACC2)) |
| /*accented*/ |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[B2] = 1; |
| |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[B3] = sContent[3];/*len*/ |
| |
| if (pam->nCurrSyllable > 30) |
| pam->nCurrSyllable = pam->nCurrSyllable; |
| |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[B16] = pam_get_vowel_name(this, |
| sContent, &pos); /*name of the vowel in the syllable*/ |
| |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[P8] = pos; /*temp for storing the position of the vowel*/ |
| |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[H5] = phType; |
| |
| /*Store current phonetic codes in input phonetic string*/ |
| picoos_mem_copy((void*) &pam->nCurrPhoneme, |
| &(pam->sSyllFeats[pam->nCurrSyllable].phoneV[FID]), |
| sizeof(pam->nCurrPhoneme)); |
| for (nI = 0; nI < sContent[3]; nI++) |
| pam->sPhIds[pam->nCurrPhoneme + nI] = sContent[4 + nI]; |
| pam->nCurrPhoneme += nI; |
| pam->nTotalPhonemes += nI; |
| /*add 1 to total number of syllables*/ |
| pam->nTotalSyllables++; |
| return PICO_OK; |
| } |
| /*if no SyllType has been identified -->> error*/ |
| return PICO_ERR_OTHER; |
| }/*pam_create_syllable*/ |
| |
| /** |
| * performs the forward step of the PAM adapter |
| * @param this : pointer to PAM PU sub object pointer |
| * @param itemBase : pointer to current item |
| * @return PICOPAM_READY : forward step ok, the sentence is complete |
| * @return PICOPAM_MORE : forward step ok, but more data needed to complete the sentence |
| * @return PICO_ERR_OTHER : errors in one internal function (CreateSyllable..) |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t pam_adapter_forward_step( |
| register picodata_ProcessingUnit this, picoos_uint8 *itemBase) |
| { |
| register pam_subobj_t * pam; |
| pico_status_t sResult; |
| picoos_uint16 uMinDur, uMaxDur; |
| picoos_uint32 nPos; |
| |
| if (NULL == this || NULL == this->subObj) { |
| return PICO_ERR_OTHER; |
| } |
| pam = (pam_subobj_t *) this->subObj; |
| uMinDur = uMaxDur = 0; /*default 0 : not initialized*/ |
| switch (itemBase[0]) { |
| case PICODATA_ITEM_BOUND: |
| /*received a boundary item*/ |
| switch (itemBase[1]) { |
| case PICODATA_ITEMINFO1_BOUND_SBEG: |
| case PICODATA_ITEMINFO1_BOUND_PHR1: |
| #ifdef PAM_PHR2_WITH_PR1 |
| case PICODATA_ITEMINFO1_BOUND_PHR2: |
| #endif |
| case PICODATA_ITEMINFO1_BOUND_SEND: |
| case PICODATA_ITEMINFO1_BOUND_TERM: |
| if (itemBase[3] == 2 * sizeof(picoos_uint16)) { |
| /*only when the item len duration is equal to 2 int16 --> get the values*/ |
| nPos = 4; |
| picoos_read_mem_pi_uint16(itemBase, &nPos, &uMinDur); |
| picoos_read_mem_pi_uint16(itemBase, &nPos, &uMaxDur); |
| } |
| break; |
| default: |
| break; |
| } |
| switch (itemBase[1]) { |
| case PICODATA_ITEMINFO1_BOUND_SBEG: |
| /* received a sentence init boundary */ |
| pam_reset_processors(this); /*reset all processor variables*/ |
| pam->sType |
| = pam_map_sentence_type(itemBase[1], itemBase[2]); |
| pam->pType = pam_map_phrase_type(itemBase[1], itemBase[2]); |
| /*create silence syll and process P_BOUND event*/ |
| sResult = pam_create_syllable(this, PICOPAM_SYLL_PAUSE, NULL, |
| pam->sType, pam->pType, itemBase[1], uMinDur, |
| uMaxDur); |
| if (sResult != PICO_OK) |
| return sResult; |
| sResult = pam_process_event(this, PICOPAM_EVENT_P_BOUND, |
| PICOPAM_DIR_FORW); |
| if (sResult != PICO_OK) |
| return sResult; |
| return PICOPAM_MORE; |
| break; |
| |
| case PICODATA_ITEMINFO1_BOUND_PHR1: |
| #ifdef PAM_PHR2_WITH_PR1 |
| case PICODATA_ITEMINFO1_BOUND_PHR2: |
| #endif |
| /*received a primary boundary*/ |
| pam->sType |
| = pam_map_sentence_type(itemBase[1], itemBase[2]); |
| pam->pType = pam_map_phrase_type(itemBase[1], itemBase[2]); |
| /*create silence syll and process P_BOUND event*/ |
| sResult = pam_create_syllable(this, PICOPAM_SYLL_PAUSE, NULL, |
| pam->sType, pam->pType, itemBase[1], uMinDur, |
| uMaxDur); |
| if (sResult != PICO_OK) |
| return sResult; |
| sResult = pam_process_event(this, PICOPAM_EVENT_P_BOUND, |
| PICOPAM_DIR_FORW); |
| if (sResult != PICO_OK) |
| return sResult; |
| return PICOPAM_MORE; |
| break; |
| |
| #ifdef PAM_PHR2_WITH_PR3 |
| case PICODATA_ITEMINFO1_BOUND_PHR2 : |
| #endif |
| case PICODATA_ITEMINFO1_BOUND_PHR3: |
| /*received a secondary boundary*/ |
| /*process S_BOUND event*/ |
| sResult = pam_process_event(this, PICOPAM_EVENT_S_BOUND, |
| PICOPAM_DIR_FORW); |
| /*determine new sentence and Phrase types for following syllables*/ |
| pam->sType |
| = pam_map_sentence_type(itemBase[1], itemBase[2]); |
| pam->pType = pam_map_phrase_type(itemBase[1], itemBase[2]); |
| if (sResult != PICO_OK) |
| return sResult; |
| return PICOPAM_MORE; |
| break; |
| |
| case PICODATA_ITEMINFO1_BOUND_PHR0: |
| /*received a word end boundary*/ |
| /*process W_BOUND event*/ |
| sResult = pam_process_event(this, PICOPAM_EVENT_W_BOUND, |
| PICOPAM_DIR_FORW); |
| if (sResult != PICO_OK) |
| return sResult; |
| return PICOPAM_MORE; |
| break; |
| |
| case PICODATA_ITEMINFO1_BOUND_SEND: |
| /*received a SEND boundary*/ |
| /*insert a new silence syllable and process P_BOUND event*/ |
| /*create silence syll and process P_BOUND event*/ |
| sResult = pam_create_syllable(this, PICOPAM_SYLL_PAUSE, NULL, |
| pam->sType, pam->pType, itemBase[1], uMinDur, |
| uMaxDur); |
| if (sResult != PICO_OK) |
| return sResult; |
| sResult = pam_process_event(this, PICOPAM_EVENT_P_BOUND, |
| PICOPAM_DIR_FORW); |
| if (sResult != PICO_OK) |
| return sResult; |
| return PICOPAM_READY; |
| break; |
| |
| case PICODATA_ITEMINFO1_BOUND_TERM: |
| /* received a flush boundary*/ |
| if (pam->nCurrSyllable == -1) { |
| return PICOPAM_NA; |
| } |
| /*insert a new silence syllable and process P_BOUND event*/ |
| /*create silence syll and process P_BOUND event*/ |
| sResult = pam_create_syllable(this, PICOPAM_SYLL_PAUSE, NULL, |
| pam->sType, pam->pType, itemBase[1], uMinDur, |
| uMaxDur); |
| if (sResult != PICO_OK) |
| return sResult; |
| sResult = pam_process_event(this, PICOPAM_EVENT_P_BOUND, |
| PICOPAM_DIR_FORW); |
| if (sResult != PICO_OK) |
| return sResult; |
| return PICOPAM_READY; |
| break; |
| |
| default: |
| /*boundary type not known*/ |
| return PICOPAM_NA; |
| break; |
| }/*end switch (itemBase[1])*/ |
| break; /*end case PICODATA_ITEM_BOUND*/ |
| |
| case PICODATA_ITEM_SYLLPHON: |
| /*received a syllable item*/ |
| /* ------------------------------------------------------------------ |
| following code has to be used if we do expect |
| SYLL items arrive even without SBEG items starting the sentence. |
| this may happen after a term has been issued to make room in local storage. |
| */ |
| if (pam->nCurrSyllable == -1) { |
| pam_reset_processors(this); |
| /*insert an SBEG with sType and pType taken from previous sentence*/ |
| sResult = pam_create_syllable(this, PICOPAM_SYLL_PAUSE, NULL, |
| pam->sType, pam->pType, PICODATA_ITEMINFO1_BOUND_SBEG, |
| 0, 0); |
| if (sResult != PICO_OK) |
| return sResult; |
| sResult = pam_process_event(this, PICOPAM_EVENT_P_BOUND, |
| PICOPAM_DIR_FORW); |
| if (sResult != PICO_OK) |
| return sResult; |
| } |
| /* ------------------------------------------------------------------*/ |
| sResult = pam_create_syllable(this, PICOPAM_SYLL_SYLL, itemBase, |
| pam->sType, pam->pType, 0, 0, 0); |
| if (sResult != PICO_OK) |
| return sResult; |
| sResult = pam_process_event(this, PICOPAM_EVENT_SYLL, |
| PICOPAM_DIR_FORW); |
| if (sResult != PICO_OK) |
| return sResult; |
| return PICOPAM_MORE; |
| break; |
| |
| default: |
| return PICOPAM_NA; |
| break; |
| } |
| return PICO_ERR_OTHER; |
| }/*pam_adapter_forward_step*/ |
| |
| /** |
| * performs the backward step of the PAM adapter |
| * @param this : pointer to PAM PU sub object pointer |
| * @return PICO_OK : backward step complete |
| * @return PICO_ERR_OTHER : errors on retrieving the PU pointer |
| * @remarks derived in some parts from the pam forward code |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t pam_adapter_backward_step( |
| register picodata_ProcessingUnit this) |
| { |
| register pam_subobj_t * pam; |
| picoos_uint8 nProcessed; |
| picoos_uint16 nSyll; |
| |
| if (NULL == this || NULL == this->subObj) { |
| return PICO_ERR_OTHER; |
| } |
| pam = (pam_subobj_t *) this->subObj; |
| |
| /*Resets the processors for the backward step*/ |
| pam_reset_processors_back(this); |
| /*Do the backward step*/ |
| nSyll = pam->nCurrSyllable; |
| while (pam->nCurrSyllable >= 0) { |
| nProcessed = 0; |
| if (pam->sSyllFeats[pam->nCurrSyllable].phoneV[P2] == 1) { |
| /*primary boundary*/ |
| pam_process_event(this, PICOPAM_EVENT_P_BOUND, PICOPAM_DIR_BACK); |
| pam->nCurrSyllable--; |
| nProcessed = 1; |
| } |
| if ((nProcessed == 0) |
| && (pam->sSyllFeats[pam->nCurrSyllable].phoneV[P3] == 1)) { |
| /*secondary boundary*/ |
| pam_process_event(this, PICOPAM_EVENT_S_BOUND, PICOPAM_DIR_BACK); |
| pam_process_event(this, PICOPAM_EVENT_SYLL, PICOPAM_DIR_BACK); |
| pam->nCurrSyllable--; |
| nProcessed = 1; |
| } |
| if ((nProcessed == 0) |
| && (pam->sSyllFeats[pam->nCurrSyllable].phoneV[P4] == 1)) { |
| /*word boundary*/ |
| pam_process_event(this, PICOPAM_EVENT_W_BOUND, PICOPAM_DIR_BACK); |
| pam_process_event(this, PICOPAM_EVENT_SYLL, PICOPAM_DIR_BACK); |
| pam->nCurrSyllable--; |
| nProcessed = 1; |
| } |
| if (nProcessed == 0) { |
| /*non boundaried syllable*/ |
| pam_process_event(this, PICOPAM_EVENT_SYLL, PICOPAM_DIR_BACK); |
| pam->nCurrSyllable--; |
| nProcessed = 0; |
| } |
| }/*end while (pam->nCurrSyllable>=0)*/ |
| /*reset syllpointer to original value*/ |
| pam->nCurrSyllable = nSyll; |
| /*Perform pause processing*/ |
| pam_adapter_do_pauses(this); |
| pam->nCurrSyllable = 0; |
| pam->nSyllPhoneme = 0; |
| |
| return PICO_OK; |
| }/*pam_adapter_backward_step*/ |
| |
| /** |
| * processes a pause (silence) syllable after backward processing |
| * @param this : pointer to PAM PU sub object pointer : processes a pause (silence) syllable after backward processing |
| * @return PICO_OK : backward step complete |
| * @return PICO_ERR_OTHER : errors on retrieving the PU pointer |
| * @remarks pam->nCurrSyllable should point to a pause item |
| * @remarks this function should be called after backward processing |
| * @remarks this function corresponds to initializing silence phonemes with |
| * @remarks values derived from previous or following syllables |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t pam_do_pause(register picodata_ProcessingUnit this) |
| { |
| picoos_uint16 syllCurr; |
| pam_subobj_t *pam; |
| if (NULL == this || NULL == this->subObj) { |
| return PICO_ERR_OTHER; |
| } |
| pam = (pam_subobj_t *) this->subObj; |
| syllCurr = pam->nCurrSyllable; |
| |
| /*processor for all features that can be inherited from previous syll (or word/phrase)*/ |
| if (pam->nCurrSyllable > 0) { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[A3] |
| = pam->sSyllFeats[pam->nCurrSyllable - 1].phoneV[B3]; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[B8] |
| = pam->sSyllFeats[pam->nCurrSyllable - 1].phoneV[B8]; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[B10] |
| = pam->sSyllFeats[pam->nCurrSyllable - 1].phoneV[B10]; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[B12] |
| = pam->sSyllFeats[pam->nCurrSyllable - 1].phoneV[B12]; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[B14] |
| = pam->sSyllFeats[pam->nCurrSyllable - 1].phoneV[B14]; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[B17] |
| = pam->sSyllFeats[pam->nCurrSyllable - 1].phoneV[B17]; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[B19] |
| = pam->sSyllFeats[pam->nCurrSyllable - 1].phoneV[B19]; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[B20] |
| = pam->sSyllFeats[pam->nCurrSyllable - 1].phoneV[B20]; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[B21] |
| = pam->sSyllFeats[pam->nCurrSyllable - 1].phoneV[B21]; |
| |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[D2] |
| = pam->sSyllFeats[pam->nCurrSyllable - 1].phoneV[E2]; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[G1] |
| = pam->sSyllFeats[pam->nCurrSyllable - 1].phoneV[H1]; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[G2] |
| = pam->sSyllFeats[pam->nCurrSyllable - 1].phoneV[H2]; |
| |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[E5] |
| = pam->sSyllFeats[pam->nCurrSyllable - 1].phoneV[E5]; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[E7] |
| = pam->sSyllFeats[pam->nCurrSyllable - 1].phoneV[E7]; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[E9] |
| = pam->sSyllFeats[pam->nCurrSyllable - 1].phoneV[E9]; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[E11] |
| = pam->sSyllFeats[pam->nCurrSyllable - 1].phoneV[E11]; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[E12] |
| = pam->sSyllFeats[pam->nCurrSyllable - 1].phoneV[E12]; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[E13] |
| = pam->sSyllFeats[pam->nCurrSyllable - 1].phoneV[E13]; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[E13] |
| = pam->sSyllFeats[pam->nCurrSyllable - 1].phoneV[E13]; |
| |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[H1] |
| = pam->sSyllFeats[pam->nCurrSyllable - 1].phoneV[H1]; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[H2] |
| = pam->sSyllFeats[pam->nCurrSyllable - 1].phoneV[H2]; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[H3] |
| = pam->sSyllFeats[pam->nCurrSyllable - 1].phoneV[H3]; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[H4] |
| = pam->sSyllFeats[pam->nCurrSyllable - 1].phoneV[H4]; |
| |
| } else { |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[A3] |
| =pam->sSyllFeats[pam->nCurrSyllable].phoneV[B8] |
| = pam->sSyllFeats[pam->nCurrSyllable].phoneV[B10] |
| = pam->sSyllFeats[pam->nCurrSyllable].phoneV[B12] |
| = pam->sSyllFeats[pam->nCurrSyllable].phoneV[B14] |
| = pam->sSyllFeats[pam->nCurrSyllable].phoneV[B17] |
| = pam->sSyllFeats[pam->nCurrSyllable].phoneV[B19] |
| = pam->sSyllFeats[pam->nCurrSyllable].phoneV[B20] |
| = pam->sSyllFeats[pam->nCurrSyllable].phoneV[B21] |
| = pam->sSyllFeats[pam->nCurrSyllable].phoneV[E5] |
| = pam->sSyllFeats[pam->nCurrSyllable].phoneV[E9] |
| = pam->sSyllFeats[pam->nCurrSyllable].phoneV[E11] |
| = pam->sSyllFeats[pam->nCurrSyllable].phoneV[E12] |
| = pam->sSyllFeats[pam->nCurrSyllable].phoneV[H1] |
| = pam->sSyllFeats[pam->nCurrSyllable].phoneV[H2] |
| = pam->sSyllFeats[pam->nCurrSyllable].phoneV[H3] |
| = 0; |
| |
| /*init values different from 0*/ |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[H4] |
| = pam->sSyllFeats[pam->nCurrSyllable].phoneV[J3]; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[H5] = PICOPAM_p; |
| |
| } |
| |
| /*processor for all features that can be inherited from next syll (or word/phrase)*/ |
| if (pam->nCurrSyllable < pam->nTotalSyllables - 1) { |
| /*non last syllable*/ |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[C3] |
| = pam->sSyllFeats[pam->nCurrSyllable + 1].phoneV[B3]; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[F2] |
| = pam->sSyllFeats[pam->nCurrSyllable + 1].phoneV[E2]; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[I1] |
| = pam->sSyllFeats[pam->nCurrSyllable + 1].phoneV[H1]; |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[I2] |
| = pam->sSyllFeats[pam->nCurrSyllable + 1].phoneV[H2]; |
| } else { |
| /*last syllable*/ |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[C3] |
| = pam->sSyllFeats[pam->nCurrSyllable].phoneV[F2] |
| = pam->sSyllFeats[pam->nCurrSyllable].phoneV[I1] |
| = pam->sSyllFeats[pam->nCurrSyllable].phoneV[I2] |
| = 0; |
| } |
| |
| /*Other fixed values derived from de-facto standard*/ |
| pam->sSyllFeats[pam->nCurrSyllable].phoneV[B18] = 0; |
| |
| return PICO_OK; |
| }/*pam_do_pause*/ |
| |
| /** |
| * performs the initialization of pause "syllables" |
| * @param this : pointer to PAM PU sub object pointer : processes a pause (silence) syllable after backward processing |
| * @return PICO_OK : pause processing successful |
| * @return PICO_ERR_OTHER : errors on retrieving the PU pointer |
| * @callgraph |
| * @callergraph |
| */ |
| static pico_status_t pam_adapter_do_pauses(register picodata_ProcessingUnit this) |
| { |
| register pam_subobj_t * pam; |
| picoos_uint16 nSyll; |
| |
| if (NULL == this || NULL == this->subObj) { |
| return PICO_ERR_OTHER; |
| } |
| pam = (pam_subobj_t *) this->subObj; |
| |
| /*Do the pause processing*/ |
| nSyll = pam->nCurrSyllable; |
| while (pam->nCurrSyllable >= 0) { |
| if (pam->sSyllFeats[pam->nCurrSyllable].phoneV[P2] == 1) { |
| /*pause processing*/ |
| pam_do_pause(this); |
| } |
| pam->nCurrSyllable--; |
| }/*end while (pam->nCurrSyllable>=0)*/ |
| /*reset syllpointer to original value*/ |
| pam->nCurrSyllable = nSyll; |
| return PICOPAM_READY; |
| }/*pam_adapter_do_pauses*/ |
| |
| #ifdef __cplusplus |
| } |
| #endif |
| |
| /* picopam.c end */ |