gusimplewhiteboard/wb__r__m__s__levels_8c_source.html

/*

 * file wb_r_m_s_levels.c

 *

 * This file was generated by classgenerator from RMS_levels.gen.

 * DO NOT CHANGE MANUALLY!

 *

 * Copyright © 2021 Rene Hexel. All rights reserved.

 *

 * Redistribution and use in source and binary forms, with or without

 * modification, are permitted provided that the following conditions

 * are met:

 *

 * 1. Redistributions of source code must retain the above copyright

 *    notice, this list of conditions and the following disclaimer.

 *

 * 2. Redistributions in binary form must reproduce the above

 *    copyright notice, this list of conditions and the following

 *    disclaimer in the documentation and/or other materials

 *    provided with the distribution.

 *

 * 3. All advertising materials mentioning features or use of this

 *    software must display the following acknowledgement:

 *

 *        This product includes software developed by Rene Hexel.

 *

 * 4. Neither the name of the author nor the names of contributors

 *    may be used to endorse or promote products derived from this

 *    software without specific prior written permission.

 *

 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS

 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT

 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR

 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER

 * OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,

 * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,

 * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR

 * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF

 * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING

 * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS

 * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

 *

 * -----------------------------------------------------------------------

 * This program is free software; you can redistribute it and/or

 * modify it under the above terms or under the terms of the GNU

 * General Public License as published by the Free Software Foundation;

 * either version 2 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/

 * or write to the Free Software Foundation, Inc., 51 Franklin Street,

 * Fifth Floor, Boston, MA  02110-1301, USA.

 *

 */


#ifndef WHITEBOARD_POSTER_STRING_CONVERSION

#define WHITEBOARD_POSTER_STRING_CONVERSION

#endif // WHITEBOARD_POSTER_STRING_CONVERSION


#include "wb_r_m_s_levels.h"

#include <stdio.h>

#include <string.h>

#include <stdlib.h>

#include <ctype.h>

#include <limits.h>


/* Network byte order functions */

#pragma clang diagnostic push

#pragma clang diagnostic ignored "-Wunused-macros"

#if defined(__linux)

#  include <endian.h>

#  include <byteswap.h>

#elif defined(__APPLE__)

#  include <machine/endian.h>           //Needed for __BYTE_ORDER

#  include <architecture/byte_order.h>   //Needed for byte swap functions

#  define bswap_16(x) NXSwapShort(x)

#  define bswap_32(x) NXSwapInt(x)

#  define bswap_64(x) NXSwapLongLong(x)

#elif defined(ESP8266)

#  define bswap_16(x) __builtin_bswap16(x)

#  define bswap_32(x) __builtin_bswap32(x)

#  define bswap_64(x) __builtin_bswap64(x)

#else

  //Manually define swap macros?

#endif


#if (!defined(__BYTE_ORDER) && !defined(__LITTLE_ENDIAN)) || (defined(__BYTE_ORDER) && defined(__LITTLE_ENDIAN) && __BYTE_ORDER == __LITTLE_ENDIAN)

#  if !defined(htonll) && !defined(ntohll)

#   define htonll(x) bswap_64(x)

#   define ntohll(x) bswap_64(x)

#  endif

#  if !defined(htonl) && !defined(ntohl)

#   define htonl(x) bswap_32(x)

#   define ntohl(x) bswap_32(x)

#  endif

#  if !defined(htons) && !defined(ntohs)

#   define htons(x) bswap_16(x)

#   define ntohs(x) bswap_16(x)

#  endif

#else

#  if !defined(htonll) && !defined(ntohll)

#   define htonll(x) (x)

#   define ntohll(x) (x)

#  endif

#  if !defined(htonl) && !defined(ntohl)

#   define htonl(x) (x)

#   define ntohl(x) (x)

#  endif

#  if !defined(htons) && !defined(ntohs)

#   define htons(x) (x)

#   define ntohs(x) (x)

#  endif

#endif

#pragma clang diagnostic pop


const char* wb_r_m_s_levels_description(const struct wb_r_m_s_levels* self, char* descString, size_t bufferSize)

{

#pragma clang diagnostic push

#pragma clang diagnostic ignored "-Wunused-variable"

    size_t len = 0;

    if (len >= bufferSize) {

        return descString;

    }

    len += snprintf(descString + len, bufferSize - len, "rear_left=%d", self->rear_left);

    if (len >= bufferSize) {

        return descString;

    }

    len = gu_strlcat(descString, ", ", bufferSize);

    if (len >= bufferSize) {

        return descString;

    }

    len += snprintf(descString + len, bufferSize - len, "rear_right=%d", self->rear_right);

    if (len >= bufferSize) {

        return descString;

    }

    len = gu_strlcat(descString, ", ", bufferSize);

    if (len >= bufferSize) {

        return descString;

    }

    len += snprintf(descString + len, bufferSize - len, "front_left=%d", self->front_left);

    if (len >= bufferSize) {

        return descString;

    }

    len = gu_strlcat(descString, ", ", bufferSize);

    if (len >= bufferSize) {

        return descString;

    }

    len += snprintf(descString + len, bufferSize - len, "front_right=%d", self->front_right);

    return descString;

#pragma clang diagnostic pop

}


const char* wb_r_m_s_levels_to_string(const struct wb_r_m_s_levels* self, char* toString, size_t bufferSize)

{

#pragma clang diagnostic push

#pragma clang diagnostic ignored "-Wunused-variable"

    size_t len = 0;

    if (len >= bufferSize) {

        return toString;

    }

    len += snprintf(toString + len, bufferSize - len, "%d", self->rear_left);

    if (len >= bufferSize) {

        return toString;

    }

    len = gu_strlcat(toString, ", ", bufferSize);

    if (len >= bufferSize) {

        return toString;

    }

    len += snprintf(toString + len, bufferSize - len, "%d", self->rear_right);

    if (len >= bufferSize) {

        return toString;

    }

    len = gu_strlcat(toString, ", ", bufferSize);

    if (len >= bufferSize) {

        return toString;

    }

    len += snprintf(toString + len, bufferSize - len, "%d", self->front_left);

    if (len >= bufferSize) {

        return toString;

    }

    len = gu_strlcat(toString, ", ", bufferSize);

    if (len >= bufferSize) {

        return toString;

    }

    len += snprintf(toString + len, bufferSize - len, "%d", self->front_right);

    return toString;

#pragma clang diagnostic pop

}


struct wb_r_m_s_levels* wb_r_m_s_levels_from_string(struct wb_r_m_s_levels* self, const char* str)

{

    size_t temp_length = strlen(str);

    int length = (temp_length <= INT_MAX) ? ((int)((ssize_t)temp_length)) : -1;

    if (length < 1 || length > RMS_LEVELS_DESC_BUFFER_SIZE) {

        return self;

    }

    char var_str_buffer[RMS_LEVELS_DESC_BUFFER_SIZE + 1];

    char* var_str = &var_str_buffer[0];

    char key_buffer[12];

    char* key = &key_buffer[0];

    int bracecount = 0;

    int startVar = 0;

    int index = 0;

    int startKey = 0;

    int endKey = -1;

    int varIndex = 0;

    if (index == 0 && str[0] == '{') {

        index = 1;

    }

    startVar = index;

    startKey = startVar;

    do {

        for (int i = index; i < length; i++) {

            index = i + 1;

            if (bracecount == 0 && str[i] == '=') {

                endKey = i - 1;

                startVar = index;

                continue;

            }

            if (bracecount == 0 && isspace(str[i])) {

                startVar = index;

                if (endKey == -1) {

                    startKey = index;

                }

                continue;

            }

            if (bracecount == 0 && str[i] == ',') {

                index = i - 1;

                break;

            }

            if (str[i] == '{') {

                bracecount++;

                continue;

            }

            if (str[i] == '}') {

                bracecount--;

                if (bracecount < 0) {

                    index = i - 1;

                    break;

                }

            }

            if (i == length - 1) {

                index = i;

            }

        }

        if (endKey >= startKey && endKey - startKey < length) {

            strncpy(key, str + startKey, ((size_t)(endKey - startKey) + 1));

            key[(endKey - startKey) + 1] = 0;

        } else {

            key[0] = 0;

        }

        strncpy(var_str, str + startVar, ((size_t)(index - startVar) + 1));

        var_str[(index - startVar) + 1] = 0;

        bracecount = 0;

        index += 2;

        startVar = index;

        startKey = startVar;

        endKey = -1;

        if (strlen(key) > 0) {

            if (0 == strcmp("rear_left", key)) {

                varIndex = 0;

            } else if (0 == strcmp("rear_right", key)) {

                varIndex = 1;

            } else if (0 == strcmp("front_left", key)) {

                varIndex = 2;

            } else if (0 == strcmp("front_right", key)) {

                varIndex = 3;

            } else {

                varIndex = -1;

            }

        }

        switch (varIndex) {

            case -1: { break; }

            case 0:

            {

                self->rear_left = ((int16_t)atoi(var_str));

                break;

            }

            case 1:

            {

                self->rear_right = ((int16_t)atoi(var_str));

                break;

            }

            case 2:

            {

                self->front_left = ((int16_t)atoi(var_str));

                break;

            }

            case 3:

            {

                self->front_right = ((int16_t)atoi(var_str));

                break;

            }

        }

        if (varIndex >= 0) {

            varIndex++;

        }

    } while(index < length);

    return self;

}


/*#ifdef WHITEBOARD_SERIALISATION*/


size_t wb_r_m_s_levels_to_network_serialised(const struct wb_r_m_s_levels *self, char *dst)

{

    uint16_t bit_offset = 0;

    int16_t rear_left_nbo = htons(self->rear_left);

    do {

      int8_t b;

      for (b = (16 - 1); b >= 0; b--) {

          do {

        uint16_t byte = bit_offset / 8;

        uint16_t bit = 7 - (bit_offset % 8);

        unsigned long newbit = !!((rear_left_nbo >> b) & 1U);

        dst[byte] ^= (-newbit ^ dst[byte]) & (1UL << bit);

        bit_offset = bit_offset + 1;

      } while(false);

      }

    } while(false);


    int16_t rear_right_nbo = htons(self->rear_right);

    do {

      int8_t b;

      for (b = (16 - 1); b >= 0; b--) {

          do {

        uint16_t byte = bit_offset / 8;

        uint16_t bit = 7 - (bit_offset % 8);

        unsigned long newbit = !!((rear_right_nbo >> b) & 1U);

        dst[byte] ^= (-newbit ^ dst[byte]) & (1UL << bit);

        bit_offset = bit_offset + 1;

      } while(false);

      }

    } while(false);


    int16_t front_left_nbo = htons(self->front_left);

    do {

      int8_t b;

      for (b = (16 - 1); b >= 0; b--) {

          do {

        uint16_t byte = bit_offset / 8;

        uint16_t bit = 7 - (bit_offset % 8);

        unsigned long newbit = !!((front_left_nbo >> b) & 1U);

        dst[byte] ^= (-newbit ^ dst[byte]) & (1UL << bit);

        bit_offset = bit_offset + 1;

      } while(false);

      }

    } while(false);


    int16_t front_right_nbo = htons(self->front_right);

    do {

      int8_t b;

      for (b = (16 - 1); b >= 0; b--) {

          do {

        uint16_t byte = bit_offset / 8;

        uint16_t bit = 7 - (bit_offset % 8);

        unsigned long newbit = !!((front_right_nbo >> b) & 1U);

        dst[byte] ^= (-newbit ^ dst[byte]) & (1UL << bit);

        bit_offset = bit_offset + 1;

      } while(false);

      }

    } while(false);

    //avoid unused variable warnings when you try to use an empty gen file or a gen file with no supported serialisation types.

    (void)self;

    (void)dst;

    return bit_offset;

}


size_t wb_r_m_s_levels_from_network_serialised(const char *src, struct wb_r_m_s_levels *dst)

{

    uint16_t bit_offset = 0;

    do {

      int8_t b;

      for (b = (16 - 1); b >= 0; b--) {

          do {

        uint16_t byte = bit_offset / 8;

        uint16_t bit = 7 - (bit_offset % 8);

        char dataByte = src[byte];

        unsigned char bitValue = (dataByte >> bit) & 1U;

        dst->rear_left ^= (-bitValue ^ dst->rear_left) & (1UL << b);

        bit_offset = bit_offset + 1;

      } while(false);

      }

    } while(false);

    dst->rear_left = ntohs(dst->rear_left);


    do {

      int8_t b;

      for (b = (16 - 1); b >= 0; b--) {

          do {

        uint16_t byte = bit_offset / 8;

        uint16_t bit = 7 - (bit_offset % 8);

        char dataByte = src[byte];

        unsigned char bitValue = (dataByte >> bit) & 1U;

        dst->rear_right ^= (-bitValue ^ dst->rear_right) & (1UL << b);

        bit_offset = bit_offset + 1;

      } while(false);

      }

    } while(false);

    dst->rear_right = ntohs(dst->rear_right);


    do {

      int8_t b;

      for (b = (16 - 1); b >= 0; b--) {

          do {

        uint16_t byte = bit_offset / 8;

        uint16_t bit = 7 - (bit_offset % 8);

        char dataByte = src[byte];

        unsigned char bitValue = (dataByte >> bit) & 1U;

        dst->front_left ^= (-bitValue ^ dst->front_left) & (1UL << b);

        bit_offset = bit_offset + 1;

      } while(false);

      }

    } while(false);

    dst->front_left = ntohs(dst->front_left);


    do {

      int8_t b;

      for (b = (16 - 1); b >= 0; b--) {

          do {

        uint16_t byte = bit_offset / 8;

        uint16_t bit = 7 - (bit_offset % 8);

        char dataByte = src[byte];

        unsigned char bitValue = (dataByte >> bit) & 1U;

        dst->front_right ^= (-bitValue ^ dst->front_right) & (1UL << b);

        bit_offset = bit_offset + 1;

      } while(false);

      }

    } while(false);

    dst->front_right = ntohs(dst->front_right);

    //avoid unused variable warnings when you try to use an empty gen file or a gen file with no supported serialisation types.

    (void)src;

    (void)dst;

    return bit_offset;

}


/*#endif // WHITEBOARD_SERIALISATION*/

wb_r_m_s_levels
WHITEBOARD_POSTER_STRING_CONVERSION.
Definition: wb_r_m_s_levels.h:107

wb_r_m_s_levels::rear_left
int16_t rear_left
rear left RMS level
Definition: wb_r_m_s_levels.h:112

wb_r_m_s_levels::front_right
int16_t front_right
front left RMS level
Definition: wb_r_m_s_levels.h:127

wb_r_m_s_levels::front_left
int16_t front_left
front left RMS level
Definition: wb_r_m_s_levels.h:122

wb_r_m_s_levels::rear_right
int16_t rear_right
rear right RMS level
Definition: wb_r_m_s_levels.h:117

wb_r_m_s_levels_to_string
const char * wb_r_m_s_levels_to_string(const struct wb_r_m_s_levels *self, char *toString, size_t bufferSize)
Convert to a string.
Definition: wb_r_m_s_levels.c:165

wb_r_m_s_levels_from_string
struct wb_r_m_s_levels * wb_r_m_s_levels_from_string(struct wb_r_m_s_levels *self, const char *str)
Convert from a string.
Definition: wb_r_m_s_levels.c:205

htons
#define htons(x)
Definition: wb_r_m_s_levels.c:101

wb_r_m_s_levels_description
const char * wb_r_m_s_levels_description(const struct wb_r_m_s_levels *self, char *descString, size_t bufferSize)
Convert to a description string.
Definition: wb_r_m_s_levels.c:125

wb_r_m_s_levels_from_network_serialised
size_t wb_r_m_s_levels_from_network_serialised(const char *src, struct wb_r_m_s_levels *dst)
Convert from a compressed, serialised, network byte order byte stream.
Definition: wb_r_m_s_levels.c:389

wb_r_m_s_levels_to_network_serialised
size_t wb_r_m_s_levels_to_network_serialised(const struct wb_r_m_s_levels *self, char *dst)
Convert to a compressed, serialised, network byte order byte stream.
Definition: wb_r_m_s_levels.c:322

ntohs
#define ntohs(x)
Definition: wb_r_m_s_levels.c:102

wb_r_m_s_levels.h

RMS_LEVELS_DESC_BUFFER_SIZE
#define RMS_LEVELS_DESC_BUFFER_SIZE
Definition: wb_r_m_s_levels.h:95