e novamente dll e mercado - página 30

 
Andrei Trukhanovich:

fazer um conjunto de uchar será positivo

geez )

WebRequest não quer saber mais nada, apenas char[]

 
Nikolai Karetnikov:

Obrigado, mas você está perdendo meu ponto )


Talvez. Mas também poderia ser o contrário ))

É assim que você pode converter curto em char. Não é uma solução muito agradável, mas não consigo pensar em mais nada à noite:

   char newpost[];
   int nTotal = ArraySize(post);
   ArrayResize(newpost, nTotal * 2);
   for (int i = 0; i < nTotal; ++i)
   {
      newpost[i * 2] = char(post[i] % 256);
      newpost[i * 2 + 1] = char(post[i] / 256);
   }
 
Nikolai Karetnikov:

...

Diga-me, você realmente negocia no mercado?

Infelizmente, eu fiz e não vou voltar a fazer isso, mas não vou desencorajar os outros).

 
Nikolai Karetnikov:

geez )

WebRequest não quer saber mais nada, apenas char[]

Isto é, não importa.

seu código (quase) trabalha para a Rússia).

 
Nikolai Karetnikov :

bem, árvores de Natal)

WebRequest não quer saber mais nada, apenas char[]

talvez haja algo semelhante

 //+------------------------------------------------------------------+
//|                                                    speak_lib.mqh |
//|                        Copyright 2020, MetaQuotes Software Corp. |
//|                                             https://www.mql5.com |
//+------------------------------------------------------------------+
#ifndef SPEAK_LIB_H
#define SPEAK_LIB_H
/***************************************************************************
 *   Copyright (C) 2005 to 2012 by Jonathan Duddington                     *
 *   email: jonsd@users.sourceforge.net                                    *
 *                                                                         *
 *   This program is free software; you can redistribute it and/or modify  *
 *   it under the terms of the GNU General Public License as published by  *
 *   the Free Software Foundation; either version 3 of the License, or     *
 *   (at your option) any later version.                                   *
 *                                                                         *
 *   This program is distributed in the hope that it will be useful,       *
 *   but WITHOUT ANY WARRANTY; without even the implied warranty of        *
 *   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the         *
 *   GNU General Public License for more details.                          *
 *                                                                         *
 *   You should have received a copy of the GNU General Public License     *
 *   along with this program; if not, see:                                 *
 *               <http://www.gnu.org/licenses/>.                           *
 ***************************************************************************/


/*************************************************************/
/* This is the header file for the library version of espeak */
/*                                                           */
/*************************************************************/

#include <stdio.h>
#include <stddef.h>

#ifdef __WIN32__
#define ESPEAK_API __declspec(dllexport)
#else
#define ESPEAK_API
#endif

#define ESPEAK_API_REVISION   9
/*
Revision 2
   Added parameter "options" to eSpeakInitialize()

Revision 3
   Added espeakWORDGAP to  espeak_PARAMETER

Revision 4
   Added flags parameter to espeak_CompileDictionary()

Revision 5
   Added espeakCHARS_16BIT

Revision 6
  Added macros: espeakRATE_MINIMUM, espeakRATE_MAXIMUM, espeakRATE_NORMAL

Revision 7  24.Dec.2011
  Changed espeak_EVENT structure to add id.string[] for phoneme mnemonics.
  Added espeakINITIALIZE_PHONEME_IPA option for espeak_Initialize() to report phonemes as IPA names.

Revision 8  26.Apr.2013
  Added function espeak_TextToPhonemes().

Revision 9  30.May.2013
  Changed function espeak_TextToPhonemes().

*/
         /********************/
         /*  Initialization  */
         /********************/

// values for 'value' in espeak_SetParameter(espeakRATE, value, 0), nominally in words-per-minute
#define espeakRATE_MINIMUM   80
#define espeakRATE_MAXIMUM   450
#define espeakRATE_NORMAL   175


typedef enum {
  espeakEVENT_LIST_TERMINATED = 0 , // Retrieval mode: terminates the event list.
  espeakEVENT_WORD = 1 ,             // Start of word
  espeakEVENT_SENTENCE = 2 ,         // Start of sentence
  espeakEVENT_MARK = 3 ,             // Mark
  espeakEVENT_PLAY = 4 ,             // Audio element
  espeakEVENT_END = 5 ,             // End of sentence or clause
  espeakEVENT_MSG_TERMINATED = 6 ,   // End of message
  espeakEVENT_PHONEME = 7 ,         // Phoneme, if enabled in espeak_Initialize()
  espeakEVENT_SAMPLERATE = 8        // internal use, set sample rate
} espeak_EVENT_TYPE;



typedef struct {
        espeak_EVENT_TYPE type;
         unsigned int unique_identifier; // message identifier (or 0 for key or character)
         int text_position;     // the number of characters from the start of the text
         int length;           // word length, in characters (for espeakEVENT_WORD)
         int audio_position;   // the time in mS within the generated speech output data
         int sample;           // sample id (internal use)
         void * user_data;       // pointer supplied by the calling program
         union {
                 int number;         // used for WORD and SENTENCE events.
                 const char *name;   // used for MARK and PLAY events.  UTF8 string
                 char string [ 8 ];     // used for phoneme names (UTF8). Terminated by a zero byte unless the name needs the full 8 bytes.
        } id;
} espeak_EVENT;
/*
   When a message is supplied to espeak_synth, the request is buffered and espeak_synth returns. When the message is really processed, the callback function will be repetedly called.


   In RETRIEVAL mode, the callback function supplies to the calling program the audio data and an event list terminated by 0 (LIST_TERMINATED).

   In PLAYBACK mode, the callback function is called as soon as an event happens.

   For example suppose that the following message is supplied to espeak_Synth:
   "hello, hello."


   * Once processed in RETRIEVAL mode, it could lead to 3 calls of the callback function :

   ** Block 1:
   <audio data> +
   List of events: SENTENCE + WORD + LIST_TERMINATED

   ** Block 2:
   <audio data> +
   List of events: WORD + END + LIST_TERMINATED

   ** Block 3:
   no audio data
   List of events: MSG_TERMINATED + LIST_TERMINATED


   * Once processed in PLAYBACK mode, it could lead to 5 calls of the callback function:

   ** SENTENCE
   ** WORD (call when the sounds are actually played)
   ** WORD
   ** END (call when the end of sentence is actually played.)
   ** MSG_TERMINATED


   The MSG_TERMINATED event is the last event. It can inform the calling program to clear the user data related to the message.
   So if the synthesis must be stopped, the callback function is called for each pending message with the MSG_TERMINATED event.

   A MARK event indicates a <mark> element in the text.
   A PLAY event indicates an <audio> element in the text, for which the calling program should play the named sound file.
*/



typedef enum {
        POS_CHARACTER = 1 ,
        POS_WORD,
        POS_SENTENCE
} espeak_POSITION_TYPE;


typedef enum {
         /* PLAYBACK mode: plays the audio data, supplies events to the calling program*/
        AUDIO_OUTPUT_PLAYBACK,

         /* RETRIEVAL mode: supplies audio data and events to the calling program */
        AUDIO_OUTPUT_RETRIEVAL,

         /* SYNCHRONOUS mode: as RETRIEVAL but doesn't return until synthesis is completed */
        AUDIO_OUTPUT_SYNCHRONOUS,

         /* Synchronous playback */
        AUDIO_OUTPUT_SYNCH_PLAYBACK

} espeak_AUDIO_OUTPUT;


typedef enum {
        EE_OK= 0 ,
        EE_INTERNAL_ERROR=- 1 ,
        EE_BUFFER_FULL= 1 ,
        EE_NOT_FOUND= 2
} espeak_ERROR;

#define espeakINITIALIZE_PHONEME_EVENTS 0x0001
#define espeakINITIALIZE_PHONEME_IPA   0x0002
#define espeakINITIALIZE_DONT_EXIT     0x8000

#ifdef __cplusplus
extern "C"
#endif
ESPEAK_API int espeak_Initialize(espeak_AUDIO_OUTPUT output, int buflength, const char *path, int options);
/* Must be called before any synthesis functions are called.
   output: the audio data can either be played by eSpeak or passed back by the SynthCallback function.

   buflength:  The length in mS of sound buffers passed to the SynthCallback function.
            Value=0 gives a default of 200mS.
            This paramater is only used for AUDIO_OUTPUT_RETRIEVAL and AUDIO_OUTPUT_SYNCHRONOUS modes.

   path: The directory which contains the espeak-data directory, or NULL for the default location.

   options: bit 0:  1=allow espeakEVENT_PHONEME events.
            bit 1:  1= espeakEVENT_PHONEME events give IPA phoneme names, not eSpeak phoneme names
            bit 15: 1=don't exit if espeak_data is not found (used for --help)

   Returns: sample rate in Hz, or -1 (EE_INTERNAL_ERROR).
*/

typedef int (t_espeak_callback)( short *, int , espeak_EVENT*);

#ifdef __cplusplus
extern "C"
#endif
ESPEAK_API void espeak_SetSynthCallback(t_espeak_callback* SynthCallback);
/* Must be called before any synthesis functions are called.
   This specifies a function in the calling program which is called when a buffer of
   speech sound data has been produced.


   The callback function is of the form:

int SynthCallback(short *wav, int numsamples, espeak_EVENT *events);

   wav:  is the speech sound data which has been produced.
      NULL indicates that the synthesis has been completed.

   numsamples: is the number of entries in wav.  This number may vary, may be less than
      the value implied by the buflength parameter given in espeak_Initialize, and may
      sometimes be zero (which does NOT indicate end of synthesis).

   events: an array of espeak_EVENT items which indicate word and sentence events, and
      also the occurance if <mark> and <audio> elements within the text.  The list of
      events is terminated by an event of type = 0.


   Callback returns: 0=continue synthesis,  1=abort synthesis.
*/

#ifdef __cplusplus
extern "C"
#endif
ESPEAK_API void espeak_SetUriCallback( int (*UriCallback)( int , const char *, const char *));
/* This function may be called before synthesis functions are used, in order to deal with
   <audio> tags.  It specifies a callback function which is called when an <audio> element is
   encountered and allows the calling program to indicate whether the sound file which
   is specified in the <audio> element is available and is to be played.

   The callback function is of the form:

int UriCallback(int type, const char *uri, const char *base);

   type:  type of callback event.  Currently only 1= <audio> element

   uri:   the "src" attribute from the <audio> element

   base:  the "xml:base" attribute (if any) from the <speak> element

   Return: 1=don't play the sound, but speak the text alternative.
           0=place a PLAY event in the event list at the point where the <audio> element
             occurs.  The calling program can then play the sound at that point.
*/


         /********************/
         /*    Synthesis     */
         /********************/


#define espeakCHARS_AUTO   0
#define espeakCHARS_UTF8   1
#define espeakCHARS_8BIT   2
#define espeakCHARS_WCHAR   3
#define espeakCHARS_16BIT   4

#define espeakSSML         0x10
#define espeakPHONEMES     0x100
#define espeakENDPAUSE     0x1000
#define espeakKEEP_NAMEDATA 0x2000

#ifdef __cplusplus
extern "C"
#endif
ESPEAK_API espeak_ERROR espeak_Synth( const void *text,
        size_t size,
         unsigned int position,
        espeak_POSITION_TYPE position_type,
         unsigned int end_position,
         unsigned int flags,
         unsigned int * unique_identifier,
         void * user_data);
/* Synthesize speech for the specified text.  The speech sound data is passed to the calling
   program in buffers by means of the callback function specified by espeak_SetSynthCallback(). The command is asynchronous: it is internally buffered and returns as soon as possible. If espeak_Initialize was previously called with AUDIO_OUTPUT_PLAYBACK as argument, the sound data are played by eSpeak.

   text: The text to be spoken, terminated by a zero character. It may be either 8-bit characters,
      wide characters (wchar_t), or UTF8 encoding.  Which of these is determined by the "flags"
      parameter.

   size: Equal to (or greatrer than) the size of the text data, in bytes.  This is used in order
      to allocate internal storage space for the text.  This value is not used for
      AUDIO_OUTPUT_SYNCHRONOUS mode.

   position:  The position in the text where speaking starts. Zero indicates speak from the
      start of the text.

   position_type:  Determines whether "position" is a number of characters, words, or sentences.
      Values:

   end_position:  If set, this gives a character position at which speaking will stop.  A value
      of zero indicates no end position.

   flags:  These may be OR'd together:
      Type of character codes, one of:
         espeakCHARS_UTF8     UTF8 encoding
         espeakCHARS_8BIT     The 8 bit ISO-8859 character set for the particular language.
         espeakCHARS_AUTO     8 bit or UTF8  (this is the default)
         espeakCHARS_WCHAR    Wide characters (wchar_t)
         espeakCHARS_16BIT    16 bit characters.

      espeakSSML   Elements within < > are treated as SSML elements, or if not recognised are ignored.

      espeakPHONEMES  Text within [[ ]] is treated as phonemes codes (in espeak's Hirshenbaum encoding).

      espeakENDPAUSE  If set then a sentence pause is added at the end of the text.  If not set then
         this pause is suppressed.

   unique_identifier: This must be either NULL, or point to an integer variable to
       which eSpeak writes a message identifier number.
       eSpeak includes this number in espeak_EVENT messages which are the result of
       this call of espeak_Synth().

   user_data: a pointer (or NULL) which will be passed to the callback function in
       espeak_EVENT messages.

   Return: EE_OK: operation achieved
           EE_BUFFER_FULL: the command can not be buffered;
             you may try after a while to call the function again.
           EE_INTERNAL_ERROR.
*/

#ifdef __cplusplus
extern "C"
#endif
ESPEAK_API espeak_ERROR espeak_Synth_Mark( const void *text,
        size_t size,
         const char *index_mark,
         unsigned int end_position,
         unsigned int flags,
         unsigned int * unique_identifier,
         void * user_data);
/* Synthesize speech for the specified text.  Similar to espeak_Synth() but the start position is
   specified by the name of a <mark> element in the text.

   index_mark:  The "name" attribute of a <mark> element within the text which specified the
      point at which synthesis starts.  UTF8 string.

   For the other parameters, see espeak_Synth()

   Return: EE_OK: operation achieved
           EE_BUFFER_FULL: the command can not be buffered;
             you may try after a while to call the function again.
           EE_INTERNAL_ERROR.
*/

#ifdef __cplusplus
extern "C"
#endif
ESPEAK_API espeak_ERROR espeak_Key( const char *key_name);
/* Speak the name of a keyboard key.
   If key_name is a single character, it speaks the name of the character.
   Otherwise, it speaks key_name as a text string.

   Return: EE_OK: operation achieved
           EE_BUFFER_FULL: the command can not be buffered;
             you may try after a while to call the function again.
           EE_INTERNAL_ERROR.
*/

#ifdef __cplusplus
extern "C"
#endif
ESPEAK_API espeak_ERROR espeak_Char(wchar_t character);
/* Speak the name of the given character

   Return: EE_OK: operation achieved
           EE_BUFFER_FULL: the command can not be buffered;
             you may try after a while to call the function again.
           EE_INTERNAL_ERROR.
*/




         /***********************/
         /*  Speech Parameters  */
         /***********************/

typedef enum {
  espeakSILENCE= 0 , /* internal use */
  espeakRATE= 1 ,
  espeakVOLUME= 2 ,
  espeakPITCH= 3 ,
  espeakRANGE= 4 ,
  espeakPUNCTUATION= 5 ,
  espeakCAPITALS= 6 ,
  espeakWORDGAP= 7 ,
  espeakOPTIONS= 8 ,   // reserved for misc. options.  not yet used
  espeakINTONATION= 9 ,

  espeakRESERVED1= 10 ,
  espeakRESERVED2= 11 ,
  espeakEMPHASIS,   /* internal use */
  espeakLINELENGTH, /* internal use */
  espeakVOICETYPE,   // internal, 1=mbrola
  N_SPEECH_PARAM     /* last enum */
} espeak_PARAMETER;

typedef enum {
  espeakPUNCT_NONE= 0 ,
  espeakPUNCT_ALL= 1 ,
  espeakPUNCT_SOME= 2
} espeak_PUNCT_TYPE;

#ifdef __cplusplus
extern "C"
#endif
ESPEAK_API espeak_ERROR espeak_SetParameter(espeak_PARAMETER parameter, int value, int relative);
/* Sets the value of the specified parameter.
   relative=0   Sets the absolute value of the parameter.
   relative=1   Sets a relative value of the parameter.

   parameter:
      espeakRATE:    speaking speed in word per minute.  Values 80 to 450.

      espeakVOLUME:  volume in range 0-200 or more.
                     0=silence, 100=normal full volume, greater values may produce amplitude compression or distortion

      espeakPITCH:   base pitch, range 0-100.  50=normal

      espeakRANGE:   pitch range, range 0-100. 0-monotone, 50=normal

      espeakPUNCTUATION:  which punctuation characters to announce:
         value in espeak_PUNCT_TYPE (none, all, some),
         see espeak_GetParameter() to specify which characters are announced.

      espeakCAPITALS: announce capital letters by:
         0=none,
         1=sound icon,
         2=spelling,
         3 or higher, by raising pitch.  This values gives the amount in Hz by which the pitch
            of a word raised to indicate it has a capital letter.

      espeakWORDGAP:  pause between words, units of 10mS (at the default speed)

   Return: EE_OK: operation achieved
           EE_BUFFER_FULL: the command can not be buffered;
             you may try after a while to call the function again.
           EE_INTERNAL_ERROR.
*/

#ifdef __cplusplus
extern "C"
#endif
ESPEAK_API int espeak_GetParameter(espeak_PARAMETER parameter, int current);
/* current=0  Returns the default value of the specified parameter.
   current=1  Returns the current value of the specified parameter, as set by SetParameter()
*/

#ifdef __cplusplus
extern "C"
#endif
ESPEAK_API espeak_ERROR espeak_SetPunctuationList( const wchar_t *punctlist);
/* Specified a list of punctuation characters whose names are to be spoken when the
   value of the Punctuation parameter is set to "some".

   punctlist:  A list of character codes, terminated by a zero character.

   Return: EE_OK: operation achieved
           EE_BUFFER_FULL: the command can not be buffered;
             you may try after a while to call the function again.
           EE_INTERNAL_ERROR.
*/

#ifdef __cplusplus
extern "C"
#endif
ESPEAK_API void espeak_SetPhonemeTrace( int value, FILE *stream);
/* Controls the output of phoneme symbols for the text
   value=0  No phoneme output (default)
   value=1  Output the translated phoneme symbols for the text
   value=2  as (1), but also output a trace of how the translation was done (matching rules and list entries)
   value=3  as (1), but produces IPA rather than ascii phoneme names

   stream   output stream for the phoneme symbols (and trace).  If stream=NULL then it uses stdout.
*/

#ifdef __cplusplus
extern "C"
#endif
ESPEAK_API const char *espeak_TextToPhonemes( const void **textptr, int textmode, int phonememode);
/* Translates text into phonemes.  Call espeak_SetVoiceByName() first, to select a language.

   It returns a pointer to a character string which contains the phonemes for the text up to
   end of a sentence, or comma, semicolon, colon, or similar punctuation.

   textptr: The address of a pointer to the input text which is terminated by a zero character.
      On return, the pointer has been advanced past the text which has been translated, or else set
      to NULL to indicate that the end of the text has been reached.

   textmode: Type of character codes, one of:
         espeakCHARS_UTF8     UTF8 encoding
         espeakCHARS_8BIT     The 8 bit ISO-8859 character set for the particular language.
         espeakCHARS_AUTO     8 bit or UTF8  (this is the default)
         espeakCHARS_WCHAR    Wide characters (wchar_t)
         espeakCHARS_16BIT    16 bit characters.

   phonememode: bits0-3:
      0= just phonemes.
      1= include ties (U+361) for phoneme names of more than one letter.
      2= include zero-width-joiner for phoneme names of more than one letter.
      3= separate phonemes with underscore characters.

         bits 4-7:
      0= eSpeak's ascii phoneme names.
      1= International Phonetic Alphabet (as UTF-8 characters).
*/

#ifdef __cplusplus
extern "C"
#endif
ESPEAK_API void espeak_CompileDictionary( const char *path, FILE * log , int flags);
/* Compile pronunciation dictionary for a language which corresponds to the currently
   selected voice.  The required voice should be selected before calling this function.

   path:  The directory which contains the language's '_rules' and '_list' files.
          'path' should end with a path separator character ('/').
   log:   Stream for error reports and statistics information. If log=NULL then stderr will be used.

   flags:  Bit 0: include source line information for debug purposes (This is displayed with the
          -X command line option).
*/
         /***********************/
         /*   Voice Selection   */
         /***********************/


// voice table
typedef struct {
         const char *name;       // a given name for this voice. UTF8 string.
         const char *languages;       // list of pairs of (byte) priority + (string) language (and dialect qualifier)
         const char *identifier;       // the filename for this voice within espeak-data/voices
         unsigned char gender;   // 0=none 1=male, 2=female,
         unsigned char age;     // 0=not specified, or age in years
         unsigned char variant; // only used when passed as a parameter to espeak_SetVoiceByProperties
         unsigned char xx1;     // for internal use
         int score;       // for internal use
         void *spare;     // for internal use
} espeak_VOICE;

/* Note: The espeak_VOICE structure is used for two purposes:
  1.  To return the details of the available voices.
  2.  As a parameter to  espeak_SetVoiceByProperties() in order to specify selection criteria.

   In (1), the "languages" field consists of a list of (UTF8) language names for which this voice
   may be used, each language name in the list is terminated by a zero byte and is also preceded by
   a single byte which gives a "priority" number.  The list of languages is terminated by an
   additional zero byte.

   A language name consists of a language code, optionally followed by one or more qualifier (dialect)
   names separated by hyphens (eg. "en-uk").  A voice might, for example, have languages "en-uk" and
   "en".  Even without "en" listed, voice would still be selected for the "en" language (because
   "en-uk" is related) but at a lower priority.

   The priority byte indicates how the voice is preferred for the language. A low number indicates a
   more preferred voice, a higher number indicates a less preferred voice.

   In (2), the "languages" field consists simply of a single (UTF8) language name, with no preceding
   priority byte.
*/

#ifdef __cplusplus
extern "C"
#endif
ESPEAK_API const espeak_VOICE **espeak_ListVoices(espeak_VOICE *voice_spec);
/* Reads the voice files from espeak-data/voices and creates an array of espeak_VOICE pointers.
   The list is terminated by a NULL pointer

   If voice_spec is NULL then all voices are listed.
   If voice spec is given, then only the voices which are compatible with the voice_spec
   are listed, and they are listed in preference order.
*/

#ifdef __cplusplus
extern "C"
#endif
ESPEAK_API espeak_ERROR espeak_SetVoiceByName( const char *name);
/* Searches for a voice with a matching "name" field.  Language is not considered.
   "name" is a UTF8 string.

   Return: EE_OK: operation achieved
           EE_BUFFER_FULL: the command can not be buffered;
             you may try after a while to call the function again.
           EE_INTERNAL_ERROR.
*/

#ifdef __cplusplus
extern "C"
#endif
ESPEAK_API espeak_ERROR espeak_SetVoiceByProperties(espeak_VOICE *voice_spec);
/* An espeak_VOICE structure is used to pass criteria to select a voice.  Any of the following
   fields may be set:

   name     NULL, or a voice name

   languages  NULL, or a single language string (with optional dialect), eg. "en-uk", or "en"

   gender   0=not specified, 1=male, 2=female

   age      0=not specified, or an age in years

   variant  After a list of candidates is produced, scored and sorted, "variant" is used to index
            that list and choose a voice.
            variant=0 takes the top voice (i.e. best match). variant=1 takes the next voice, etc
*/

#ifdef __cplusplus
extern "C"
#endif
ESPEAK_API espeak_VOICE *espeak_GetCurrentVoice( void );
/* Returns the espeak_VOICE data for the currently selected voice.
   This is not affected by temporary voice changes caused by SSML elements such as <voice> and <s>
*/

#ifdef __cplusplus
extern "C"
#endif
ESPEAK_API espeak_ERROR espeak_Cancel( void );
/* Stop immediately synthesis and audio output of the current text. When this
   function returns, the audio output is fully stopped and the synthesizer is ready to
   synthesize a new message.

   Return: EE_OK: operation achieved
           EE_INTERNAL_ERROR.
*/


#ifdef __cplusplus
extern "C"
#endif
ESPEAK_API int espeak_IsPlaying( void );
/* Returns 1 if audio is played, 0 otherwise.
*/

#ifdef __cplusplus
extern "C"
#endif
ESPEAK_API espeak_ERROR espeak_Synchronize( void );
/* This function returns when all data have been spoken.
   Return: EE_OK: operation achieved
           EE_INTERNAL_ERROR.
*/

#ifdef __cplusplus
extern "C"
#endif
ESPEAK_API espeak_ERROR espeak_Terminate( void );
/* last function to be called.
   Return: EE_OK: operation achieved
           EE_INTERNAL_ERROR.
*/


#ifdef __cplusplus
extern "C"
#endif
ESPEAK_API const char *espeak_Info( const char **path_data);
/* Returns the version number string.
   path_data  returns the path to espeak_data
*/
#endif
Arquivos anexados:
speak_lib.mqh  26 kb
 

Ocorreu-me que os IBMs cobram 5 vezes mais pela dobragem, porque a devolvem em todos os formatos convenientes e não os fazem se incomodar com conversões, chegando com hacks "caseiros".

Sério, o que diabos está acontecendo? Tanta luta por um resultado simples - pegue o arquivo, jogue o arquivo.


ZS. A questão principal: o limite para a voz de 4000000 caracteres por mês - o suficiente para uma EA, mas para 100 pessoas este valor é dividido por 40 000 caracteres, e para 1000 - 4000 - ou seja, nada. Mesmo 40.000 podem ser muito poucos para um. Depende do número de palavras faladas e do tempo de trabalho do Consultor Especialista. Então, o que fazer a respeito?

A solução é que cada usuário abra ele mesmo uma conta no Google e receba a chave do serviço TTS, que ele entra no Expert Advisor no início da operação.

 
Реter Konow:

Ocorreu-me que os IBMs cobram 5 vezes mais pela dobragem porque a devolvem em todos os formatos convenientes e não os fazem se incomodar com conversões, chegando com hacks "caseiros".

Sério, o que diabos está acontecendo? Tanta luta por um resultado simples - pegue o arquivo, jogue o arquivo.


ZS. A questão principal: o limite para a locução de 4000000 caracteres por mês - o suficiente para uma EA, mas para 100 pessoas esta quantidade é dividida por 40 000 caracteres, e para 1000 - 4000 - ou seja, nada. Mesmo 40.000 podem ser muito poucos para um. Depende do número de palavras faladas e do tempo de trabalho do Consultor Especialista. Então, o que fazer a respeito?

A solução é que cada usuário abra ele mesmo uma conta no google e receba a chave do serviço TTS, que ele entra no Expert Advisor no início da operação.

Ainda estou tentando entender - há alguma maneira de fazer isso?

eSpeak-это компактный программный синтезатор речи с открытым исходным кодом для английского и других языков, для Linux и Windows. http://espeak.sourceforge.net
эспик использует метод "синтеза формантов". Это позволяет предоставлять множество языков в небольшом размере. Речь ясна и может использоваться на высоких скоростях, но не так естественна и плавна, как большие синтезаторы, основанные на записях человеческой речи.
озвучки доступно как:
Программа командной строки (Linux и Windows) для произнесения текста из файла или из stdin.
Версия общей библиотеки для использования другими программами. (В Windows это библиотека DLL).
Версия SAPI5 для Windows, поэтому ее можно использовать с программами чтения с экрана и другими программами, поддерживающими интерфейс Windows SAPI5.
eSpeak был портирован на другие платформы, включая Android, Mac OSX и Solaris.
Особенности.
Включает в себя различные голоса, характеристики которых могут быть изменены.
Может производить речевой вывод в виде WAV-файла.
Поддерживается SSML (язык разметки синтеза речи) (не полный), а также HTML.
Компактный размер. Программа и ее данные, включая множество языков, составляют около 2 Мбайт.
Может быть использован как передний конец языка голоса дифонов, посмотрим языка.HTML. eSpeak преобразует текст в фонемы с информацией о высоте тона и длине.
Может переводить текст в коды фонем, поэтому он может быть адаптирован в качестве переднего плана для другого механизма синтеза речи.
Потенциал для других языков. Некоторые из них включены в различные стадии прогресса. Помощь от носителей этих или других языков приветствуется.
Для получения и настройки фонемных данных доступны инструменты разработки.
Написано В С.
Я регулярно использую eSpeak для прослушивания блогов и новостных сайтов. Я предпочитаю звук через домашнюю стереосистему, а не маленькие компьютерные динамики, которые могут звучать довольно резко.
 
Alexsandr San:

Eu continuo tentando descobrir - você não pode fazer algo a partir disto?

Teoricamente, acho que você poderia. Este é um programa de código aberto e se tentarmos portar este código para a MQL (duvido, é claro), então talvez...

Se não for portado, então usar apenas uma DLL, e estamos tentando resolver o problema sem ela.

 
Реter Konow:

Teoricamente, provavelmente, isso poderia ser feito. Este é um programa de código aberto, e se você tentar portar este código para a MQL (duvido, é claro), então talvez...

Se não for portado, então somente usando DLL, e estamos tentando resolver o problema sem ele.

Obrigado pela resposta! Já estou exausto - não tenho conhecimentos suficientes

 
Alexsandr San:

Obrigado pela resposta! Já estou exausto - não tenho conhecimentos suficientes

Seja bem-vindo!

A propósito, preciso dizer à TC que este aqui:

  StringToCharArray(jsonbody,post,0,-1,CP_UTF8);
  ArrayResize(post, StringToCharArray(jsonbody,post) - 1);

Entrada muito estranha. Por que especificar o tamanho da matriz postal de uma forma tão estranha? A funçãoStringToCharArray estabelece o tamanho certo para a própria matriz dinâmica.ArrayResize parece ser supérfluo aqui.