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mgeppert:CLion_Build
mgeppert:master
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mgeppert:v15.2.0
mgeppert:v15.1.0
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mgeppert:v15.0.0
mgeppert:v14.6.0
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17
.gitattributes vendored
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@ -1,17 +0,0 @@
# Auto detect text files and perform LF normalization
* text=off
# Custom for Visual Studio
*.cs diff=csharp
# Standard to msysgit
*.doc diff=astextplain
*.DOC diff=astextplain
*.docx diff=astextplain
*.DOCX diff=astextplain
*.dot diff=astextplain
*.DOT diff=astextplain
*.pdf diff=astextplain
*.PDF diff=astextplain
*.rtf diff=astextplain
*.RTF diff=astextplain

369
.gitignore vendored
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@ -1,14 +1,361 @@
## OS specific ########
.DS_Store
# ---> C++
# Prerequisites
*.d
# Compiled Object files
*.slo
*.lo
*.o
*.obj
# Precompiled Headers
*.gch
*.pch
# Compiled Dynamic libraries
*.so
*.dylib
*.dll
# Fortran module files
*.mod
*.smod
# Compiled Static libraries
*.lai
*.la
*.a
*.lib
# Executables
*.exe
*.out
*.app
# ---> C
# Prerequisites
*.d
# Object files
*.o
*.ko
*.obj
*.elf
# Linker output
*.ilk
*.map
*.exp
# Precompiled Headers
*.gch
*.pch
# Libraries
*.lib
*.a
*.la
*.lo
# Shared objects (inc. Windows DLLs)
*.dll
*.so
*.so.*
*.dylib
# Executables
*.exe
*.out
*.app
*.i*86
*.x86_64
*.hex
# Debug files
*.dSYM/
*.su
*.idb
*.pdb
# Kernel Module Compile Results
*.mod*
*.cmd
.tmp_versions/
modules.order
Module.symvers
Mkfile.old
dkms.conf
# ---> CMake
CMakeLists.txt.user
CMakeCache.txt
CMakeFiles
CMakeScripts
Testing
Makefile
cmake_install.cmake
install_manifest.txt
compile_commands.json
CTestTestfile.cmake
_deps
# ---> JetBrains
# Covers JetBrains IDEs: IntelliJ, RubyMine, PhpStorm, AppCode, PyCharm, CLion, Android Studio, WebStorm and Rider
# Reference: https://intellij-support.jetbrains.com/hc/en-us/articles/206544839
# User-specific stuff
.idea/**/workspace.xml
.idea/**/tasks.xml
.idea/**/usage.statistics.xml
.idea/**/dictionaries
.idea/**/shelf
# AWS User-specific
.idea/**/aws.xml
# Generated files
.idea/**/contentModel.xml
# Sensitive or high-churn files
.idea/**/dataSources/
.idea/**/dataSources.ids
.idea/**/dataSources.local.xml
.idea/**/sqlDataSources.xml
.idea/**/dynamic.xml
.idea/**/uiDesigner.xml
.idea/**/dbnavigator.xml
# Gradle
.idea/**/gradle.xml
.idea/**/libraries
# Gradle and Maven with auto-import
# When using Gradle or Maven with auto-import, you should exclude module files,
# since they will be recreated, and may cause churn. Uncomment if using
# auto-import.
# .idea/artifacts
# .idea/compiler.xml
# .idea/jarRepositories.xml
# .idea/modules.xml
# .idea/*.iml
# .idea/modules
# *.iml
# *.ipr
# CMake
cmake-build-*/
# Mongo Explorer plugin
.idea/**/mongoSettings.xml
# File-based project format
*.iws
# IntelliJ
out/
# mpeltonen/sbt-idea plugin
.idea_modules/
# JIRA plugin
atlassian-ide-plugin.xml
# Cursive Clojure plugin
.idea/replstate.xml
# SonarLint plugin
.idea/sonarlint/
# Crashlytics plugin (for Android Studio and IntelliJ)
com_crashlytics_export_strings.xml
crashlytics.properties
crashlytics-build.properties
fabric.properties
# Editor-based Rest Client
.idea/httpRequests
# Android studio 3.1+ serialized cache file
.idea/caches/build_file_checksums.ser
# ---> Linux
*~
# temporary files which can be created if a process still has a handle open of a deleted file
.fuse_hidden*
## Project files ######
.pioenvs
.piolibdeps
.clang_complete
.gcc-flags.json
sonoff/user_config_override.h
build
# KDE directory preferences
.directory
# Linux trash folder which might appear on any partition or disk
.Trash-*
# .nfs files are created when an open file is removed but is still being accessed
.nfs*
# ---> Ninja
.ninja_deps
.ninja_log
# ---> Python
# Byte-compiled / optimized / DLL files
__pycache__/
*.py[cod]
*$py.class
# C extensions
*.so
# Distribution / packaging
.Python
build/
develop-eggs/
dist/
downloads/
eggs/
.eggs/
lib/
lib64/
parts/
sdist/
var/
wheels/
share/python-wheels/
*.egg-info/
.installed.cfg
*.egg
MANIFEST
# PyInstaller
# Usually these files are written by a python script from a template
# before PyInstaller builds the exe, so as to inject date/other infos into it.
*.manifest
*.spec
# Installer logs
pip-log.txt
pip-delete-this-directory.txt
# Unit test / coverage reports
htmlcov/
.tox/
.nox/
.coverage
.coverage.*
.cache
nosetests.xml
coverage.xml
*.cover
*.py,cover
.hypothesis/
.pytest_cache/
cover/
# Translations
*.mo
*.pot
# Django stuff:
*.log
local_settings.py
db.sqlite3
db.sqlite3-journal
# Flask stuff:
instance/
.webassets-cache
# Scrapy stuff:
.scrapy
# Sphinx documentation
docs/_build/
# PyBuilder
.pybuilder/
target/
# Jupyter Notebook
.ipynb_checkpoints
# IPython
profile_default/
ipython_config.py
# pyenv
# For a library or package, you might want to ignore these files since the code is
# intended to run in multiple environments; otherwise, check them in:
# .python-version
# pipenv
# According to pypa/pipenv#598, it is recommended to include Pipfile.lock in version control.
# However, in case of collaboration, if having platform-specific dependencies or dependencies
# having no cross-platform support, pipenv may install dependencies that don't work, or not
# install all needed dependencies.
#Pipfile.lock
# poetry
# Similar to Pipfile.lock, it is generally recommended to include poetry.lock in version control.
# This is especially recommended for binary packages to ensure reproducibility, and is more
# commonly ignored for libraries.
# https://python-poetry.org/docs/basic-usage/#commit-your-poetrylock-file-to-version-control
#poetry.lock
# pdm
# Similar to Pipfile.lock, it is generally recommended to include pdm.lock in version control.
#pdm.lock
# pdm stores project-wide configurations in .pdm.toml, but it is recommended to not include it
# in version control.
# https://pdm.fming.dev/#use-with-ide
.pdm.toml
# PEP 582; used by e.g. github.com/David-OConnor/pyflow and github.com/pdm-project/pdm
__pypackages__/
# Celery stuff
celerybeat-schedule
celerybeat.pid
# SageMath parsed files
*.sage.py
# Environments
.env
.venv
env/
venv/
ENV/
env.bak/
venv.bak/
# Spyder project settings
.spyderproject
.spyproject
# Rope project settings
.ropeproject
# mkdocs documentation
/site
# mypy
.mypy_cache/
.dmypy.json
dmypy.json
# Pyre type checker
.pyre/
# pytype static type analyzer
.pytype/
# Cython debug symbols
cython_debug/
# PyCharm
# JetBrains specific template is maintained in a separate JetBrains.gitignore that can
# be found at https://github.com/github/gitignore/blob/main/Global/JetBrains.gitignore
# and can be added to the global gitignore or merged into this file. For a more nuclear
# option (not recommended) you can uncomment the following to ignore the entire idea folder.
#.idea/
## Visual Studio Code specific ######
.vscode

23
.travis.yml
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language: python
python:
- '2.7'
sudo: false
cache:
directories:
- "~/.platformio"
install:
- pip install -U platformio
script:
- platformio run
before_deploy:
- for file in .pioenvs/*/firmware.bin; do cp $file ${file%/*}.bin; done
deploy:
provider: releases
api_key:
secure: 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
file_glob: true
file: ".pioenvs/*.bin"
skip_cleanup: true
on:
tags: true

9
LICENSE Normal file
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@ -0,0 +1,9 @@
MIT License
Copyright (c) 2026 mgeppert
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.

674
LICENSE.txt
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@ -1,674 +0,0 @@
GNU GENERAL PUBLIC LICENSE
Version 3, 29 June 2007
Copyright (C) 2007 Free Software Foundation, Inc. <http://fsf.org/>
Everyone is permitted to copy and distribute verbatim copies
of this license document, but changing it is not allowed.
Preamble
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The licenses for most software and other practical works are designed
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223
README.md
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@ -1,222 +1,3 @@
## Sonoff-Tasmota
# Tasmota
Alternative firmware for _ESP8266 based devices_ like [iTead](https://www.itead.cc/) _**Sonoff**_ with **web**, **timers**, 'Over The Air' (**OTA**) firmware updates and **sensors support**, allowing control under **Serial**, **HTTP**, **MQTT** and **KNX**, so as to be used on **Smart Home Systems**. Written for Arduino IDE and PlatformIO.
[![GitHub version](https://img.shields.io/github/release/arendst/Sonoff-Tasmota.svg)](https://github.com/arendst/Sonoff-Tasmota/releases/latest)
[![GitHub download](https://img.shields.io/github/downloads/arendst/Sonoff-Tasmota/total.svg)](https://github.com/arendst/Sonoff-Tasmota/releases/latest)
[![License](https://img.shields.io/github/license/arendst/Sonoff-Tasmota.svg)](https://github.com/arendst/Sonoff-Tasmota/blob/master/LICENSE.txt)
If you like **Sonoff-Tasmota**, give it a star, or fork it and contribute!
[![GitHub stars](https://img.shields.io/github/stars/arendst/Sonoff-Tasmota.svg?style=social&label=Star)](https://github.com/arendst/Sonoff-Tasmota/stargazers)
[![GitHub forks](https://img.shields.io/github/forks/arendst/Sonoff-Tasmota.svg?style=social&label=Fork)](https://github.com/arendst/Sonoff-Tasmota/network)
[![donate](https://img.shields.io/badge/donate-PayPal-blue.svg)](https://paypal.me/tasmota)
See [sonoff/_releasenotes.ino](https://github.com/arendst/Sonoff-Tasmota/blob/master/sonoff/_releasenotes.ino) for change information.
### Disclaimer
:warning: **DANGER OF ELECTROCUTION** :warning:
A Sonoff device is not a toy. It uses Mains AC so there is a danger of electrocution if not installed properly. If you don't know how to install it, please call an electrician. Remember: _**SAFETY FIRST**_. It is not worth to risk yourself, your family and your home if you don't know exactly what you are doing. Never try to flash a Sonoff device while it is connected to MAINS AC.
We don't take any responsibility nor liability for using this software nor for the installation or any tips, advice, videos, etc. given by any member of this site or any related site.
### Quick install
Download one of the released binaries from https://github.com/arendst/Sonoff-Tasmota/releases and flash it to your hardware as documented in the wiki.
### Important User Compilation Information
If you want to compile Sonoff-Tasmota yourself keep in mind the following:
- Only Flash Mode **DOUT** is supported. Do not use Flash Mode DIO / QIO / QOUT as it might seem to brick your device. See [Wiki](https://github.com/arendst/Sonoff-Tasmota/wiki/Theo's-Tasmota-Tips) for background information.
- Sonoff-Tasmota uses a 1M linker script WITHOUT spiffs **1M (no SPIFFS)** for optimal code space. If you compile using ESP/Arduino library 2.3.0 then download the provided new linker script to your Arduino IDE or Platformio base folder. Later version of ESP/Arduino library already contain the correct linker script. See [Wiki > Prerequisite](https://github.com/arendst/Sonoff-Tasmota/wiki/Prerequisite).
- To make compile time changes to Sonoff-Tasmota it can use the ``user_config_override.h`` file. It assures keeping your settings when you download and compile a new version. To use ``user_config.override.h`` you will have to make a copy of the provided ``user_config.override_sample.h`` file and add your setting overrides. To enable the override file you will need to use a compile define as documented in the ``user_config_override_sample.h`` file.
### Version Information
- Sonoff-Tasmota provides all (Sonoff) modules in one file and starts with module Sonoff Basic.
- Once uploaded select module using the configuration webpage or the commands ```Modules``` and ```Module```.
- After reboot select config menu again or use commands ```GPIOs``` and ```GPIO``` to change GPIO with desired sensor.
### Migration Instructions
See [wiki migration path](https://github.com/arendst/Sonoff-Tasmota/wiki/Upgrade#migration-path) for instructions how to migrate to a major version. Pay attention to the following version breaks due to dynamic settings updates:
1. Migrate to **Sonoff-Tasmota 3.9.x**
2. Migrate to **Sonoff-Tasmota 4.x**
3. Migrate to **Sonoff-Tasmota 5.14**
4. Migrate to **Sonoff-Tasmota 6.x**
### Support Information
<img src="https://github.com/arendst/arendst.github.io/blob/master/media/sonoffbasic.jpg" width="250" align="right" />
See [Wiki](https://github.com/arendst/Sonoff-Tasmota/wiki) for more information.<br />
See [Community](https://groups.google.com/d/forum/sonoffusers) for forum and more user experience.
The following devices are supported:
- [iTead Sonoff Basic](https://www.itead.cc/smart-home/sonoff-wifi-wireless-switch-1.html)
- [iTead Sonoff RF](https://www.itead.cc/smart-home/sonoff-rf.html)
- [iTead Sonoff SV](https://www.itead.cc/smart-home/sonoff-sv.html)<img src="https://github.com/arendst/arendst.github.io/blob/master/media/sonoff_th.jpg" width="250" align="right" />
- [iTead Sonoff TH10/TH16 with temperature sensor](https://www.itead.cc/smart-home/sonoff-th.html)
- [iTead Sonoff Dual (R2)](https://www.itead.cc/smart-home/sonoff-dual.html)
- [iTead Sonoff Pow with Energy Monitoring](https://www.itead.cc/smart-home/sonoff-pow.html)
- [iTead Sonoff Pow R2 with Energy Monitoring](https://www.itead.cc/sonoff-pow-r2.html)
- [iTead Sonoff 4CH (R2)](https://www.itead.cc/smart-home/sonoff-4ch.html)
- [iTead Sonoff 4CH Pro (R2)](https://www.itead.cc/smart-home/sonoff-4ch-pro.html)
- [iTead S20 Smart Socket](https://www.itead.cc/smart-socket.html)
- [Sonoff S22 Smart Socket](https://github.com/arendst/Sonoff-Tasmota/issues/627)
- [iTead Sonoff S26 Smart Socket](https://www.itead.cc/sonoff-s26-wifi-smart-plug.html)
- [iTead Sonoff S31 Smart Socket with Energy Monitoring](https://www.itead.cc/sonoff-s31.html)
- [iTead Slampher](https://www.itead.cc/slampher.html)
- [iTead Sonoff Touch](https://www.itead.cc/sonoff-touch.html)
- [iTead Sonoff T1](https://www.itead.cc/sonoff-t1.html)
- [iTead Sonoff SC](https://www.itead.cc/sonoff-sc.html)
- [iTead Sonoff Led](https://www.itead.cc/sonoff-led.html)<img src="https://github.com/arendst/arendst.github.io/blob/master/media/sonoff4chpror2.jpg" height="250" align="right" />
- [iTead Sonoff BN-SZ01 Ceiling Led](https://www.itead.cc/bn-sz01.html)
- [iTead Sonoff B1](https://www.itead.cc/sonoff-b1.html)
- [iTead Sonoff iFan02](https://www.itead.cc/sonoff-ifan02-wifi-smart-ceiling-fan-with-light.html)
- [iTead Sonoff RF Bridge 433](https://www.itead.cc/sonoff-rf-bridge-433.html)
- [iTead Sonoff Dev](https://www.itead.cc/sonoff-dev.html)
- [iTead 1 Channel Switch 5V / 12V](https://www.itead.cc/smart-home/inching-self-locking-wifi-wireless-switch.html)
- [iTead Motor Clockwise/Anticlockwise](https://www.itead.cc/smart-home/motor-reversing-wifi-wireless-switch.html)
- [Electrodragon IoT Relay Board](http://www.electrodragon.com/product/wifi-iot-relay-board-based-esp8266/)
- AI Light or any my9291 compatible RGBW LED bulb
- H801 PWM LED controller
- [MagicHome PWM LED controller](https://github.com/arendst/Sonoff-Tasmota/wiki/MagicHome-LED-strip-controller)
- AriLux AL-LC01, AL-LC06 and AL-LC11 PWM LED controller
- [Supla device - Espablo-inCan mod. for electrical Installation box](https://forum.supla.org/viewtopic.php?f=33&t=2188)
- [BlitzWolf BW-SHP2 Smart Socket with Energy Monitoring](https://www.banggood.com/BlitzWolf-BW-SHP2-Smart-WIFI-Socket-EU-Plug-220V-16A-Work-with-Amazon-Alexa-Google-Assistant-p-1292899.html)
- [Luani HVIO board](https://luani.de/projekte/esp8266-hvio/)
- Wemos D1 mini, NodeMcu and Ledunia
### Firmware release information
Different firmware images are released based on Features and Sensors selection guided by code and memory usage.
- The Minimal version allows intermediate OTA uploads to support larger versions and does NOT change any persistent parameter.
- The Classic version allows single OTA uploads as did the previous Sonoff-Tasmota versions.
#### Available Features and Sensors
| Feature or Sensor | sonoff | classic | minimal | knx | allsensors |
|--------------------------------|--------|---------|---------|-----|------------|
| MY_LANGUAGE en-GB | x | x | x | x | x |
| MQTT_LIBRARY_TYPE PUBSUBCLIENT | x | x | x | x | x |
| USE_DOMOTICZ | x | x | - | x | x |
| USE_HOME_ASSISTANT | x | x | - | x | x |
| USE_MQTT_TLS | - | - | - | - | - |
| USE_KNX | - | - | - | x | - |
| USE_WEBSERVER | x | x | x | x | x |
| USE_EMULATION | x | x | - | - | x |
| USE_DISCOVERY | x | x | - | x | x |
| WEBSERVER_ADVERTISE | x | x | - | x | x |
| MQTT_HOST_DISCOVERY | x | x | - | x | x |
| USE_TIMERS | x | - | - | x | x |
| USE_TIMERS_WEB | x | - | - | x | x |
| USE_SUNRISE | x | - | - | x | x |
| USE_RULES | x | - | - | x | x |
| | | | | | |
| USE_ADC_VCC | x | x | x | x | x |
| USE_DS18B20 | x | x | - | x | - |
| USE_DS18x20 | - | - | - | - | x |
| USE_DS18x20_LEGACY | - | - | - | - | - |
| USE_I2C | x | x | - | x | x |
| USE_SHT | x | x | - | x | x |
| USE_SHT3X | x | x | - | x | x |
| USE_HTU | x | x | - | x | x |
| USE_LM75AD | x | - | - | x | x |
| USE_BMP | x | x | - | x | x |
| USE_BME680 | - | - | - | - | x |
| USE_SGP30 | x | - | - | x | x |
| USE_BH1750 | x | x | - | x | x |
| USE_VEML6070 | - | - | - | - | x |
| USE_TSL2561 | - | - | - | - | x |
| USE_SI1145 | - | - | - | - | x |
| USE_ADS1115 | - | - | - | - | x |
| USE_ADS1115_I2CDEV | - | - | - | - | - |
| USE_INA219 | - | - | - | - | x |
| USE_MGS | - | - | - | - | x |
| USE_SPI | - | - | - | - | - |
| USE_MHZ19 | x | x | - | x | x |
| USE_SENSEAIR | x | - | - | x | x |
| USE_PMS5003 | x | - | - | x | x |
| USE_NOVA_SDS | x | - | - | x | x |
| USE_PZEM004T | x | - | - | x | x |
| USE_SERIAL_BRIDGE | x | - | - | x | x |
| USE_SDM120 | - | - | - | - | x |
| USE_SDM630 | - | - | - | - | x |
| USE_IR_REMOTE | x | x | - | x | x |
| USE_IR_HVAC | - | - | - | - | x |
| USE_IR_RECEIVE | x | - | - | x | x |
| USE_WS2812 | x | x | - | x | x |
| USE_WS2812_DMA | - | - | - | - | - |
| USE_ARILUX_RF | x | - | - | x | x |
| USE_SR04 | x | - | - | x | x |
| USE_RF_FLASH | x | - | - | x | x |
#### Typical file size
| ESP/Arduino library version | sonoff | classic | minimal | knx | allsensors |
|-----------------------------|--------|---------|---------|------|------------|
| ESP/Arduino lib v2.3.0 | 538k | 490k | 407k | 548k | 562k |
| ESP/Arduino lib v2.4.0 | 543k | 498k | 414k | 553k | 565k |
| ESP/Arduino lib v2.4.1 | 544k | 500k | 416k | 555k | 567k |
See [Tasmota ESP/Arduino library version related issues](https://github.com/arendst/Sonoff-Tasmota/wiki/Theo's-Tasmota-Tips#20180523---relation-tasmota-and-esp8266arduino-core-version) for more information.
### Contribute
You can contribute to Sonoff-Tasmota by
- providing Pull Requests (Features, Proof of Concepts, Language files or Fixes)
- testing new released features and report issues
- donating to acquire hardware for testing and implementing or out of gratitude
[![donate](https://img.shields.io/badge/donate-PayPal-blue.svg)](https://paypal.me/tasmota)
### Credits
#### Libraries used
Libraries used with Sonoff-Tasmota are:
- [ESP8266 core for Arduino](https://github.com/esp8266/Arduino)
- [Adafruit SGP30](https://github.com/adafruit/Adafruit_SGP30)
- [ArduinoJson](https://arduinojson.org/)
- [Bosch BME680](https://github.com/BoschSensortec/BME680_driver)
- [C2 Programmer](http://app.cear.ufpb.br/~lucas.hartmann/tag/efm8bb1/)
- [Esp8266MqttClient](https://github.com/tuanpmt/ESP8266MQTTClient)
- [esp-knx-ip](https://github.com/envy/esp-knx-ip)
- [esp-mqtt-arduino](https://github.com/i-n-g-o/esp-mqtt-arduino)
- [ESPAsyncUDP](https://github.com/me-no-dev/ESPAsyncUDP)
- [I2Cdevlib](https://github.com/jrowberg/i2cdevlib)
- [IRremoteEsp8266](https://github.com/markszabo/IRremoteESP8266)
- [JobaTsl2561](https://github.com/joba-1/Joba_Tsl2561)
- [MultiChannelGasSensor](http://wiki.seeedstudio.com/Grove-Multichannel_Gas_Sensor/)
- [NeoPixelBus](https://github.com/Makuna/NeoPixelBus)
- [OneWire](https://github.com/PaulStoffregen/OneWire)
- [PubSubClient](https://github.com/knolleary/pubsubclient)
#### People inspiring me
People helping to keep the show on the road:
- David Lang providing initial issue resolution and code optimizations
- Heiko Krupp for his IRSend, HTU21, SI70xx and Wemo/Hue emulation drivers
- Wiktor Schmidt for Travis CI implementation
- Thom Dietrich for PlatformIO optimizations
- Marinus van den Broek for his EspEasy groundwork
- Pete Ba for more user friendly energy monitor calibration
- Lobradov providing compile optimization tips
- Flexiti for his initial timer implementation
- reloxx13 for his [SonWeb](https://github.com/reloxx13/SonWEB) management tool
- Joachim Banzhaf for his TSL2561 library and driver
- Gijs Noorlander for his MHZ19 and SenseAir drivers
- Emontnemery for his HomeAssistant Discovery concept and many code tuning tips
- Aidan Mountford for his HSB support
- Daniel Ztolnai for his Serial Bridge implementation
- Gerhard Mutz for his SGP30 and Sunrise/Sunset driver
- Nuno Ferreira for his HC-SR04 driver
- Adrian Scillato for his (security)fixes and implementing and maintaining KNX
- Gennaro Tortone for implementing and maintaining Eastron drivers
- Raymond Mouthaan for managing Wemos Wiki information
- Norbert Richter, Frogmore42 and Jason2866 for providing many issue answers
- Many more providing Tips, Pocs or PRs
### License
This program is licensed under GPL-3.0
Local copy of the https://github.com/arendst/Tasmota#

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api/upload-arduino.php
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<?php
// mkdir and chmod arduino folder to 777
//
//var_dump($_FILES);
$image = basename($_FILES["file"]["name"]);
$target_file = "arduino/".$image;
$hostname = $_SERVER['SERVER_NAME'];
if (move_uploaded_file($_FILES["file"]["tmp_name"], $target_file)) {
echo "The file $image has been uploaded to OTA server $hostname. \n";
} else {
echo "Sorry, there was an error uploading your file $image to OTA server $hostname. \n";
}
?>

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arduino/espupload.py
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#!/usr/bin/python
#
# espupload by Theo Arends - 20170103
#
# Uploads binary file to OTA server
#
# Execute: espupload -i <Host_IP_address> -p <Host_port> -f <sketch.bin>
#
# Needs pycurl
# - pip install pycurl
import sys
import os
import optparse
import logging
import pycurl
HOST_ADDR = "domus1"
HOST_PORT = 80
HOST_URL = "/api/upload-arduino.php"
def upload(hostAddr, hostPort, filename):
url = 'http://%s:%d%s' % (hostAddr, hostPort, HOST_URL)
c = pycurl.Curl()
c.setopt(c.URL, url)
# The "Expect:" is there to suppress "Expect: 100-continue" behaviour that is
# the default in libcurl when posting large bodies (and fails on lighttpd).
c.setopt(c.HTTPHEADER, ["Expect:"])
c.setopt(c.HTTPPOST, [('file', (c.FORM_FILE, filename, )), ])
c.perform()
c.close()
def parser():
parser = optparse.OptionParser(
usage = "%prog [options]",
description = "Upload image to over the air Host server for the esp8266 module with OTA support."
)
# destination ip and port
group = optparse.OptionGroup(parser, "Destination")
group.add_option("-i", "--host_ip",
dest = "host_ip",
action = "store",
help = "Host IP Address.",
default = HOST_ADDR
)
group.add_option("-p", "--host_port",
dest = "host_port",
type = "int",
help = "Host server ota Port. Default 80",
default = HOST_PORT
)
parser.add_option_group(group)
# image
group = optparse.OptionGroup(parser, "Image")
group.add_option("-f", "--file",
dest = "image",
help = "Image file.",
metavar="FILE",
default = None
)
parser.add_option_group(group)
# output group
group = optparse.OptionGroup(parser, "Output")
group.add_option("-d", "--debug",
dest = "debug",
help = "Show debug output. And override loglevel with debug.",
action = "store_true",
default = False
)
parser.add_option_group(group)
(options, args) = parser.parse_args()
return options
# end parser
def main(args):
# get options
options = parser()
# adapt log level
loglevel = logging.WARNING
if (options.debug):
loglevel = logging.DEBUG
# end if
# logging
logging.basicConfig(level = loglevel, format = '%(asctime)-8s [%(levelname)s]: %(message)s', datefmt = '%H:%M:%S')
logging.debug("Options: %s", str(options))
if (not options.host_ip or not options.image):
logging.critical("Not enough arguments.")
return 1
# end if
if not os.path.exists(options.image):
logging.critical('Sorry: the file %s does not exist', options.image)
return 1
# end if
upload(options.host_ip, options.host_port, options.image)
# end main
if __name__ == '__main__':
sys.exit(main(sys.argv))
# end if

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arduino/version 2.3.0/boards.txt
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arduino/version 2.3.0/platform.txt
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# ESP8266 platform
# ------------------------------
# For more info:
# https://github.com/arduino/Arduino/wiki/Arduino-IDE-1.5---3rd-party-Hardware-specification
name=ESP8266 Modules
version=2.2.0
compiler.warning_flags=-w
compiler.warning_flags.none=-w
compiler.warning_flags.default=
compiler.warning_flags.more=-Wall
compiler.warning_flags.all=-Wall -Wextra
build.lwip_lib=-llwip_gcc
build.lwip_flags=-DLWIP_OPEN_SRC
compiler.path={runtime.tools.xtensa-lx106-elf-gcc.path}/bin/
compiler.sdk.path={runtime.platform.path}/tools/sdk
compiler.cpreprocessor.flags=-D__ets__ -DICACHE_FLASH -U__STRICT_ANSI__ "-I{compiler.sdk.path}/include" "-I{compiler.sdk.path}/lwip/include" "-I{build.path}/core"
compiler.c.cmd=xtensa-lx106-elf-gcc
compiler.c.flags=-c {compiler.warning_flags} -Os -g -Wpointer-arith -Wno-implicit-function-declaration -Wl,-EL -fno-inline-functions -nostdlib -mlongcalls -mtext-section-literals -falign-functions=4 -MMD -std=gnu99 -ffunction-sections -fdata-sections
compiler.S.cmd=xtensa-lx106-elf-gcc
compiler.S.flags=-c -g -x assembler-with-cpp -MMD -mlongcalls
compiler.c.elf.flags=-g {compiler.warning_flags} -Os -nostdlib -Wl,--no-check-sections -u call_user_start -Wl,-static "-L{compiler.sdk.path}/lib" "-L{compiler.sdk.path}/ld" "-T{build.flash_ld}" -Wl,--gc-sections -Wl,-wrap,system_restart_local -Wl,-wrap,register_chipv6_phy
compiler.c.elf.cmd=xtensa-lx106-elf-gcc
compiler.c.elf.libs=-lm -lgcc -lhal -lphy -lpp -lnet80211 -lwpa -lcrypto -lmain -lwps -laxtls -lsmartconfig -lmesh -lwpa2 {build.lwip_lib} -lstdc++
compiler.cpp.cmd=xtensa-lx106-elf-g++
compiler.cpp.flags=-c {compiler.warning_flags} -Os -g -mlongcalls -mtext-section-literals -fno-exceptions -fno-rtti -falign-functions=4 -std=c++11 -MMD -ffunction-sections -fdata-sections
compiler.as.cmd=xtensa-lx106-elf-as
compiler.ar.cmd=xtensa-lx106-elf-ar
compiler.ar.flags=cru
compiler.elf2hex.cmd=esptool
compiler.elf2hex.flags=
compiler.size.cmd=xtensa-lx106-elf-size
compiler.esptool.cmd=esptool
compiler.esptool.cmd.windows=esptool.exe
# This can be overriden in boards.txt
build.extra_flags=-DESP8266
# These can be overridden in platform.local.txt
compiler.c.extra_flags=
compiler.c.elf.extra_flags=
compiler.S.extra_flags=
compiler.cpp.extra_flags=
compiler.ar.extra_flags=
compiler.objcopy.eep.extra_flags=
compiler.elf2hex.extra_flags=
## generate file with git version number
## needs bash, git, and echo
## windows-compatible version may be added later
## Compile c files
recipe.c.o.pattern="{compiler.path}{compiler.c.cmd}" {compiler.cpreprocessor.flags} {compiler.c.flags} -DF_CPU={build.f_cpu} {build.lwip_flags} {build.debug_port} {build.debug_level} -DARDUINO={runtime.ide.version} -DARDUINO_{build.board} -DARDUINO_ARCH_{build.arch} -DARDUINO_BOARD="{build.board}" {compiler.c.extra_flags} {build.extra_flags} {includes} "{source_file}" -o "{object_file}"
## Compile c++ files
recipe.cpp.o.pattern="{compiler.path}{compiler.cpp.cmd}" {compiler.cpreprocessor.flags} {compiler.cpp.flags} -DF_CPU={build.f_cpu} {build.lwip_flags} {build.debug_port} {build.debug_level} -DARDUINO={runtime.ide.version} -DARDUINO_{build.board} -DARDUINO_ARCH_{build.arch} -DARDUINO_BOARD="{build.board}" {compiler.cpp.extra_flags} {build.extra_flags} {includes} "{source_file}" -o "{object_file}"
## Compile S files
recipe.S.o.pattern="{compiler.path}{compiler.c.cmd}" {compiler.cpreprocessor.flags} {compiler.S.flags} -DF_CPU={build.f_cpu} {build.lwip_flags} {build.debug_port} {build.debug_level} -DARDUINO={runtime.ide.version} -DARDUINO_{build.board} -DARDUINO_ARCH_{build.arch} -DARDUINO_BOARD="{build.board}" {compiler.c.extra_flags} {build.extra_flags} {includes} "{source_file}" -o "{object_file}"
## Create archives
recipe.ar.pattern="{compiler.path}{compiler.ar.cmd}" {compiler.ar.flags} {compiler.ar.extra_flags} "{build.path}/arduino.ar" "{object_file}"
## Combine gc-sections, archives, and objects
recipe.c.combine.pattern="{compiler.path}{compiler.c.elf.cmd}" {compiler.c.elf.flags} {compiler.c.elf.extra_flags} -o "{build.path}/{build.project_name}.elf" -Wl,--start-group {object_files} "{build.path}/arduino.ar" {compiler.c.elf.libs} -Wl,--end-group "-L{build.path}"
## Create eeprom
recipe.objcopy.eep.pattern=
## Create hex
#recipe.objcopy.hex.pattern="{compiler.path}{compiler.elf2hex.cmd}" {compiler.elf2hex.flags} {compiler.elf2hex.extra_flags} "{build.path}/{build.project_name}.elf" "{build.path}/{build.project_name}.hex"
recipe.objcopy.hex.pattern="{runtime.tools.esptool.path}/{compiler.esptool.cmd}" -eo "{runtime.platform.path}/bootloaders/eboot/eboot.elf" -bo "{build.path}/{build.project_name}.bin" -bm {build.flash_mode} -bf {build.flash_freq} -bz {build.flash_size} -bs .text -bp 4096 -ec -eo "{build.path}/{build.project_name}.elf" -bs .irom0.text -bs .text -bs .data -bs .rodata -bc -ec
## Save hex
recipe.output.tmp_file={build.project_name}.bin
recipe.output.save_file={build.project_name}.{build.variant}.bin
## Compute size
recipe.size.pattern="{compiler.path}{compiler.size.cmd}" -A "{build.path}/{build.project_name}.elf"
recipe.size.regex=^(?:\.irom0\.text|\.text|\.data|\.rodata|)\s+([0-9]+).*
recipe.size.regex.data=^(?:\.data|\.rodata|\.bss)\s+([0-9]+).*
#recipe.size.regex.eeprom=^(?:\.eeprom)\s+([0-9]+).*
# ------------------------------
tools.esptool.cmd=esptool
tools.esptool.cmd.windows=esptool.exe
tools.esptool.path={runtime.tools.esptool.path}
tools.esptool.network_cmd=python
tools.esptool.network_cmd.windows=python.exe
tools.esptool.upload.protocol=esp
tools.esptool.upload.params.verbose=-vv
tools.esptool.upload.params.quiet=
tools.esptool.upload.pattern="{path}/{cmd}" {upload.verbose} -cd {upload.resetmethod} -cb {upload.speed} -cp "{serial.port}" -ca 0x00000 -cf "{build.path}/{build.project_name}.bin"
tools.esptool.upload.network_pattern="{network_cmd}" "{runtime.platform.path}/tools/espota.py" -i "{serial.port}" -p "{network.port}" "--auth={network.password}" -f "{build.path}/{build.project_name}.bin"
tools.mkspiffs.cmd=mkspiffs
tools.mkspiffs.cmd.windows=mkspiffs.exe
tools.mkspiffs.path={runtime.tools.mkspiffs.path}
tools.espupload.cmd=python
tools.espupload.cmd.windows=python.exe
tools.espupload.path={runtime.platform.path}/tools
tools.espupload.upload.protocol=espupload
tools.espupload.upload.params.verbose=
tools.espupload.upload.params.quiet=
tools.espupload.upload.pattern="{cmd}" "{path}/espupload.py" -f "{build.path}/{build.project_name}.bin"

18
arduino/version 2.3.0/tools/sdk/ld/eagle.flash.1m0.ld
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/* Flash Split for 1M chips, no SPIFFS */
/* sketch 999KB */
/* eeprom 20KB */
MEMORY
{
dport0_0_seg : org = 0x3FF00000, len = 0x10
dram0_0_seg : org = 0x3FFE8000, len = 0x14000
iram1_0_seg : org = 0x40100000, len = 0x8000
irom0_0_seg : org = 0x40201010, len = 0xf9ff0
}
PROVIDE ( _SPIFFS_start = 0x402FB000 );
PROVIDE ( _SPIFFS_end = 0x402FB000 );
PROVIDE ( _SPIFFS_page = 0 );
PROVIDE ( _SPIFFS_block = 0 );
INCLUDE "../ld/eagle.app.v6.common.ld"

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arduino/version 2.4.0/boards.txt
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arduino/version 2.4.0/platform.txt
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# ESP8266 platform
# ------------------------------
# For more info:
# https://github.com/arduino/Arduino/wiki/Arduino-IDE-1.5---3rd-party-Hardware-specification
name=ESP8266 Modules
version=2.4.0
compiler.warning_flags=-w
compiler.warning_flags.none=-w
compiler.warning_flags.default=
compiler.warning_flags.more=-Wall
compiler.warning_flags.all=-Wall -Wextra
build.lwip_lib=-llwip_gcc
build.lwip_include=lwip/include
build.lwip_flags=-DLWIP_OPEN_SRC
compiler.path={runtime.tools.xtensa-lx106-elf-gcc.path}/bin/
compiler.sdk.path={runtime.platform.path}/tools/sdk
compiler.libc.path={runtime.platform.path}/tools/sdk/libc/xtensa-lx106-elf
compiler.cpreprocessor.flags=-D__ets__ -DICACHE_FLASH -U__STRICT_ANSI__ "-I{compiler.sdk.path}/include" "-I{compiler.sdk.path}/{build.lwip_include}" "-I{compiler.libc.path}/include" "-I{build.path}/core"
compiler.c.cmd=xtensa-lx106-elf-gcc
compiler.c.flags=-c {compiler.warning_flags} -Os -g -Wpointer-arith -Wno-implicit-function-declaration -Wl,-EL -fno-inline-functions -nostdlib -mlongcalls -mtext-section-literals -falign-functions=4 -MMD -std=gnu99 -ffunction-sections -fdata-sections
compiler.S.cmd=xtensa-lx106-elf-gcc
compiler.S.flags=-c -g -x assembler-with-cpp -MMD -mlongcalls
# compiler.c.elf.flags=-g {compiler.warning_flags} -Os -nostdlib -Wl,--no-check-sections -u call_user_start -u _printf_float -u _scanf_float -Wl,-static "-L{compiler.sdk.path}/lib" "-L{compiler.sdk.path}/ld" "-L{compiler.libc.path}/lib" "-T{build.flash_ld}" -Wl,--gc-sections -Wl,-wrap,system_restart_local -Wl,-wrap,spi_flash_read
compiler.c.elf.flags=-g {compiler.warning_flags} -Os -nostdlib -Wl,--no-check-sections -u call_user_start -Wl,-static "-L{compiler.sdk.path}/lib" "-L{compiler.sdk.path}/ld" "-L{compiler.libc.path}/lib" "-T{build.flash_ld}" -Wl,--gc-sections -Wl,-wrap,system_restart_local -Wl,-wrap,spi_flash_read
compiler.c.elf.cmd=xtensa-lx106-elf-gcc
compiler.c.elf.libs=-lhal -lphy -lpp -lnet80211 {build.lwip_lib} -lwpa -lcrypto -lmain -lwps -laxtls -lespnow -lsmartconfig -lairkiss -lmesh -lwpa2 -lstdc++ -lm -lc -lgcc
compiler.cpp.cmd=xtensa-lx106-elf-g++
compiler.cpp.flags=-c {compiler.warning_flags} -Os -g -mlongcalls -mtext-section-literals -fno-exceptions -fno-rtti -falign-functions=4 -std=c++11 -MMD -ffunction-sections -fdata-sections
compiler.as.cmd=xtensa-lx106-elf-as
compiler.ar.cmd=xtensa-lx106-elf-ar
compiler.ar.flags=cru
compiler.elf2hex.cmd=esptool
compiler.elf2hex.flags=
compiler.size.cmd=xtensa-lx106-elf-size
compiler.esptool.cmd=esptool
compiler.esptool.cmd.windows=esptool.exe
# This can be overriden in boards.txt
build.extra_flags=-DESP8266
# These can be overridden in platform.local.txt
compiler.c.extra_flags=
compiler.c.elf.extra_flags=
compiler.S.extra_flags=
compiler.cpp.extra_flags=
compiler.ar.extra_flags=
compiler.objcopy.eep.extra_flags=
compiler.elf2hex.extra_flags=
## generate file with git version number
## needs bash, git, and echo
## windows-compatible version may be added later
## Compile c files
recipe.c.o.pattern="{compiler.path}{compiler.c.cmd}" {compiler.cpreprocessor.flags} {compiler.c.flags} -DF_CPU={build.f_cpu} {build.lwip_flags} {build.debug_port} {build.debug_level} -DARDUINO={runtime.ide.version} -DARDUINO_{build.board} -DARDUINO_ARCH_{build.arch} -DARDUINO_BOARD="{build.board}" {compiler.c.extra_flags} {build.extra_flags} {includes} "{source_file}" -o "{object_file}"
## Compile c++ files
recipe.cpp.o.pattern="{compiler.path}{compiler.cpp.cmd}" {compiler.cpreprocessor.flags} {compiler.cpp.flags} -DF_CPU={build.f_cpu} {build.lwip_flags} {build.debug_port} {build.debug_level} -DARDUINO={runtime.ide.version} -DARDUINO_{build.board} -DARDUINO_ARCH_{build.arch} -DARDUINO_BOARD="{build.board}" {compiler.cpp.extra_flags} {build.extra_flags} {includes} "{source_file}" -o "{object_file}"
## Compile S files
recipe.S.o.pattern="{compiler.path}{compiler.c.cmd}" {compiler.cpreprocessor.flags} {compiler.S.flags} -DF_CPU={build.f_cpu} {build.lwip_flags} {build.debug_port} {build.debug_level} -DARDUINO={runtime.ide.version} -DARDUINO_{build.board} -DARDUINO_ARCH_{build.arch} -DARDUINO_BOARD="{build.board}" {compiler.c.extra_flags} {build.extra_flags} {includes} "{source_file}" -o "{object_file}"
## Create archives
recipe.ar.pattern="{compiler.path}{compiler.ar.cmd}" {compiler.ar.flags} {compiler.ar.extra_flags} "{build.path}/arduino.ar" "{object_file}"
## Combine gc-sections, archives, and objects
recipe.c.combine.pattern="{compiler.path}{compiler.c.elf.cmd}" {compiler.c.elf.flags} {compiler.c.elf.extra_flags} -o "{build.path}/{build.project_name}.elf" -Wl,--start-group {object_files} "{build.path}/arduino.ar" {compiler.c.elf.libs} -Wl,--end-group "-L{build.path}"
## Create eeprom
recipe.objcopy.eep.pattern=
## Create hex
#recipe.objcopy.hex.pattern="{compiler.path}{compiler.elf2hex.cmd}" {compiler.elf2hex.flags} {compiler.elf2hex.extra_flags} "{build.path}/{build.project_name}.elf" "{build.path}/{build.project_name}.hex"
recipe.objcopy.hex.pattern="{runtime.tools.esptool.path}/{compiler.esptool.cmd}" -eo "{runtime.platform.path}/bootloaders/eboot/eboot.elf" -bo "{build.path}/{build.project_name}.bin" -bm {build.flash_mode} -bf {build.flash_freq} -bz {build.flash_size} -bs .text -bp 4096 -ec -eo "{build.path}/{build.project_name}.elf" -bs .irom0.text -bs .text -bs .data -bs .rodata -bc -ec
## Save hex
recipe.output.tmp_file={build.project_name}.bin
recipe.output.save_file={build.project_name}.{build.variant}.bin
## Compute size
recipe.size.pattern="{compiler.path}{compiler.size.cmd}" -A "{build.path}/{build.project_name}.elf"
recipe.size.regex=^(?:\.irom0\.text|\.text|\.data|\.rodata|)\s+([0-9]+).*
recipe.size.regex.data=^(?:\.data|\.rodata|\.bss)\s+([0-9]+).*
#recipe.size.regex.eeprom=^(?:\.eeprom)\s+([0-9]+).*
# ------------------------------
tools.esptool.cmd=esptool
tools.esptool.cmd.windows=esptool.exe
tools.esptool.path={runtime.tools.esptool.path}
tools.esptool.network_cmd=python
tools.esptool.network_cmd.windows=python.exe
tools.esptool.upload.protocol=esp
tools.esptool.upload.params.verbose=-vv
tools.esptool.upload.params.quiet=
tools.esptool.upload.pattern="{path}/{cmd}" {upload.verbose} -cd {upload.resetmethod} -cb {upload.speed} -cp "{serial.port}" -ca 0x00000 -cf "{build.path}/{build.project_name}.bin"
tools.esptool.upload.network_pattern="{network_cmd}" "{runtime.platform.path}/tools/espota.py" -i "{serial.port}" -p "{network.port}" "--auth={network.password}" -f "{build.path}/{build.project_name}.bin"
tools.mkspiffs.cmd=mkspiffs
tools.mkspiffs.cmd.windows=mkspiffs.exe
tools.mkspiffs.path={runtime.tools.mkspiffs.path}
tools.espupload.cmd=python
tools.espupload.cmd.windows=python.exe
tools.espupload.path={runtime.platform.path}/tools
tools.espupload.upload.protocol=espupload
tools.espupload.upload.params.verbose=
tools.espupload.upload.params.quiet=
tools.espupload.upload.pattern="{cmd}" "{path}/espupload.py" -f "{build.path}/{build.project_name}.bin"

3796
arduino/version 2.4.1/boards.txt
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137
arduino/version 2.4.1/platform.txt
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@ -1,137 +0,0 @@
# ESP8266 platform
# ------------------------------
# For more info:
# https://github.com/arduino/Arduino/wiki/Arduino-IDE-1.5---3rd-party-Hardware-specification
name=ESP8266 Modules
version=2.4.1
compiler.warning_flags=-w
compiler.warning_flags.none=-w
compiler.warning_flags.default=
compiler.warning_flags.more=-Wall
compiler.warning_flags.all=-Wall -Wextra
build.lwip_lib=-llwip_gcc
build.lwip_include=lwip/include
build.lwip_flags=-DLWIP_OPEN_SRC
#build.float=-u _printf_float -u _scanf_float
build.float=
build.led=
compiler.path={runtime.tools.xtensa-lx106-elf-gcc.path}/bin/
compiler.sdk.path={runtime.platform.path}/tools/sdk
compiler.libc.path={runtime.platform.path}/tools/sdk/libc/xtensa-lx106-elf
compiler.cpreprocessor.flags=-D__ets__ -DICACHE_FLASH -U__STRICT_ANSI__ "-I{compiler.sdk.path}/include" "-I{compiler.sdk.path}/{build.lwip_include}" "-I{compiler.libc.path}/include" "-I{build.path}/core"
compiler.c.cmd=xtensa-lx106-elf-gcc
compiler.c.flags=-c {compiler.warning_flags} -Os -g -Wpointer-arith -Wno-implicit-function-declaration -Wl,-EL -fno-inline-functions -nostdlib -mlongcalls -mtext-section-literals -falign-functions=4 -MMD -std=gnu99 -ffunction-sections -fdata-sections
compiler.S.cmd=xtensa-lx106-elf-gcc
compiler.S.flags=-c -g -x assembler-with-cpp -MMD -mlongcalls
compiler.c.elf.flags=-g {compiler.warning_flags} -Os -nostdlib -Wl,--no-check-sections -u call_user_start {build.float} -Wl,-static "-L{compiler.sdk.path}/lib" "-L{compiler.sdk.path}/ld" "-L{compiler.libc.path}/lib" "-T{build.flash_ld}" -Wl,--gc-sections -Wl,-wrap,system_restart_local -Wl,-wrap,spi_flash_read
compiler.c.elf.cmd=xtensa-lx106-elf-gcc
compiler.c.elf.libs=-lhal -lphy -lpp -lnet80211 {build.lwip_lib} -lwpa -lcrypto -lmain -lwps -laxtls -lespnow -lsmartconfig -lairkiss -lwpa2 -lstdc++ -lm -lc -lgcc
compiler.cpp.cmd=xtensa-lx106-elf-g++
compiler.cpp.flags=-c {compiler.warning_flags} -Os -g -mlongcalls -mtext-section-literals -fno-exceptions -fno-rtti -falign-functions=4 -std=c++11 -MMD -ffunction-sections -fdata-sections
compiler.as.cmd=xtensa-lx106-elf-as
compiler.ar.cmd=xtensa-lx106-elf-ar
compiler.ar.flags=cru
compiler.elf2hex.cmd=esptool
compiler.elf2hex.flags=
compiler.size.cmd=xtensa-lx106-elf-size
compiler.esptool.cmd=esptool
compiler.esptool.cmd.windows=esptool.exe
# This can be overriden in boards.txt
build.extra_flags=-DESP8266
# These can be overridden in platform.local.txt
compiler.c.extra_flags=
compiler.c.elf.extra_flags=
compiler.S.extra_flags=
compiler.cpp.extra_flags=
compiler.ar.extra_flags=
compiler.objcopy.eep.extra_flags=
compiler.elf2hex.extra_flags=
## generate file with git version number
## needs bash, git, and echo
## windows-compatible version without git
## Compile c files
recipe.c.o.pattern="{compiler.path}{compiler.c.cmd}" {compiler.cpreprocessor.flags} {compiler.c.flags} -DF_CPU={build.f_cpu} {build.lwip_flags} {build.debug_port} {build.debug_level} -DARDUINO={runtime.ide.version} -DARDUINO_{build.board} -DARDUINO_ARCH_{build.arch} -DARDUINO_BOARD="{build.board}" {build.led} {compiler.c.extra_flags} {build.extra_flags} {includes} "{source_file}" -o "{object_file}"
## Compile c++ files
recipe.cpp.o.pattern="{compiler.path}{compiler.cpp.cmd}" {compiler.cpreprocessor.flags} {compiler.cpp.flags} -DF_CPU={build.f_cpu} {build.lwip_flags} {build.debug_port} {build.debug_level} -DARDUINO={runtime.ide.version} -DARDUINO_{build.board} -DARDUINO_ARCH_{build.arch} -DARDUINO_BOARD="{build.board}" {build.led} {compiler.cpp.extra_flags} {build.extra_flags} {includes} "{source_file}" -o "{object_file}"
## Compile S files
recipe.S.o.pattern="{compiler.path}{compiler.c.cmd}" {compiler.cpreprocessor.flags} {compiler.S.flags} -DF_CPU={build.f_cpu} {build.lwip_flags} {build.debug_port} {build.debug_level} -DARDUINO={runtime.ide.version} -DARDUINO_{build.board} -DARDUINO_ARCH_{build.arch} -DARDUINO_BOARD="{build.board}" {build.led} {compiler.c.extra_flags} {build.extra_flags} {includes} "{source_file}" -o "{object_file}"
## Create archives
recipe.ar.pattern="{compiler.path}{compiler.ar.cmd}" {compiler.ar.flags} {compiler.ar.extra_flags} "{build.path}/arduino.ar" "{object_file}"
## Combine gc-sections, archives, and objects
recipe.c.combine.pattern="{compiler.path}{compiler.c.elf.cmd}" {compiler.c.elf.flags} {compiler.c.elf.extra_flags} -o "{build.path}/{build.project_name}.elf" -Wl,--start-group {object_files} "{build.path}/arduino.ar" {compiler.c.elf.libs} -Wl,--end-group "-L{build.path}"
## Create eeprom
recipe.objcopy.eep.pattern=
## Create hex
#recipe.objcopy.hex.pattern="{compiler.path}{compiler.elf2hex.cmd}" {compiler.elf2hex.flags} {compiler.elf2hex.extra_flags} "{build.path}/{build.project_name}.elf" "{build.path}/{build.project_name}.hex"
recipe.objcopy.hex.pattern="{runtime.tools.esptool.path}/{compiler.esptool.cmd}" -eo "{runtime.platform.path}/bootloaders/eboot/eboot.elf" -bo "{build.path}/{build.project_name}.bin" -bm {build.flash_mode} -bf {build.flash_freq} -bz {build.flash_size} -bs .text -bp 4096 -ec -eo "{build.path}/{build.project_name}.elf" -bs .irom0.text -bs .text -bs .data -bs .rodata -bc -ec
## Save hex
recipe.output.tmp_file={build.project_name}.bin
recipe.output.save_file={build.project_name}.{build.variant}.bin
## Compute size
recipe.size.pattern="{compiler.path}{compiler.size.cmd}" -A "{build.path}/{build.project_name}.elf"
recipe.size.regex=^(?:\.irom0\.text|\.text|\.data|\.rodata|)\s+([0-9]+).*
recipe.size.regex.data=^(?:\.data|\.rodata|\.bss)\s+([0-9]+).*
#recipe.size.regex.eeprom=^(?:\.eeprom)\s+([0-9]+).*
# ------------------------------
tools.esptool.cmd=esptool
tools.esptool.cmd.windows=esptool.exe
tools.esptool.path={runtime.tools.esptool.path}
tools.esptool.network_cmd=python
tools.esptool.network_cmd.windows=python.exe
tools.esptool.upload.protocol=esp
tools.esptool.upload.params.verbose=-vv
tools.esptool.upload.params.quiet=
tools.esptool.upload.pattern="{path}/{cmd}" {upload.verbose} -cd {upload.resetmethod} -cb {upload.speed} -cp "{serial.port}" {upload.erase_cmd} -ca 0x00000 -cf "{build.path}/{build.project_name}.bin"
tools.esptool.upload.network_pattern="{network_cmd}" "{runtime.platform.path}/tools/espota.py" -i "{serial.port}" -p "{network.port}" "--auth={network.password}" -f "{build.path}/{build.project_name}.bin"
tools.mkspiffs.cmd=mkspiffs
tools.mkspiffs.cmd.windows=mkspiffs.exe
tools.mkspiffs.path={runtime.tools.mkspiffs.path}
tools.espupload.cmd=python
tools.espupload.cmd.windows=python.exe
tools.espupload.path={runtime.platform.path}/tools
tools.espupload.upload.protocol=espupload
tools.espupload.upload.params.verbose=
tools.espupload.upload.params.quiet=
tools.espupload.upload.pattern="{cmd}" "{path}/espupload.py" -f "{build.path}/{build.project_name}.bin"

18
esp8266.flash.1m0.ld
View File

@ -1,18 +0,0 @@
/* Flash Split for 1M chips */
/* sketch 999KB */
/* eeprom 20KB */
MEMORY
{
dport0_0_seg : org = 0x3FF00000, len = 0x10
dram0_0_seg : org = 0x3FFE8000, len = 0x14000
iram1_0_seg : org = 0x40100000, len = 0x8000
irom0_0_seg : org = 0x40201010, len = 0xf9ff0
}
PROVIDE ( _SPIFFS_start = 0x402FB000 );
PROVIDE ( _SPIFFS_end = 0x402FB000 );
PROVIDE ( _SPIFFS_page = 0 );
PROVIDE ( _SPIFFS_block = 0 );
INCLUDE "esp8266.flash.common.ld"

46
lib/Adafruit_SGP30-1.0.0.13/.github/ISSUE_TEMPLATE.md vendored
View File

@ -1,46 +0,0 @@
Thank you for opening an issue on an Adafruit Arduino library repository. To
improve the speed of resolution please review the following guidelines and
common troubleshooting steps below before creating the issue:
- **Do not use GitHub issues for troubleshooting projects and issues.** Instead use
the forums at http://forums.adafruit.com to ask questions and troubleshoot why
something isn't working as expected. In many cases the problem is a common issue
that you will more quickly receive help from the forum community. GitHub issues
are meant for known defects in the code. If you don't know if there is a defect
in the code then start with troubleshooting on the forum first.
- **If following a tutorial or guide be sure you didn't miss a step.** Carefully
check all of the steps and commands to run have been followed. Consult the
forum if you're unsure or have questions about steps in a guide/tutorial.
- **For Arduino projects check these very common issues to ensure they don't apply**:
- For uploading sketches or communicating with the board make sure you're using
a **USB data cable** and **not** a **USB charge-only cable**. It is sometimes
very hard to tell the difference between a data and charge cable! Try using the
cable with other devices or swapping to another cable to confirm it is not
the problem.
- **Be sure you are supplying adequate power to the board.** Check the specs of
your board and plug in an external power supply. In many cases just
plugging a board into your computer is not enough to power it and other
peripherals.
- **Double check all soldering joints and connections.** Flakey connections
cause many mysterious problems. See the [guide to excellent soldering](https://learn.adafruit.com/adafruit-guide-excellent-soldering/tools) for examples of good solder joints.
- **Ensure you are using an official Arduino or Adafruit board.** We can't
guarantee a clone board will have the same functionality and work as expected
with this code and don't support them.
If you're sure this issue is a defect in the code and checked the steps above
please fill in the following fields to provide enough troubleshooting information.
You may delete the guideline and text above to just leave the following details:
- Arduino board: **INSERT ARDUINO BOARD NAME/TYPE HERE**
- Arduino IDE version (found in Arduino -> About Arduino menu): **INSERT ARDUINO
VERSION HERE**
- List the steps to reproduce the problem below (if possible attach a sketch or
copy the sketch code in too): **LIST REPRO STEPS BELOW**

26
lib/Adafruit_SGP30-1.0.0.13/.github/PULL_REQUEST_TEMPLATE.md vendored
View File

@ -1,26 +0,0 @@
Thank you for creating a pull request to contribute to Adafruit's GitHub code!
Before you open the request please review the following guidelines and tips to
help it be more easily integrated:
- **Describe the scope of your change--i.e. what the change does and what parts
of the code were modified.** This will help us understand any risks of integrating
the code.
- **Describe any known limitations with your change.** For example if the change
doesn't apply to a supported platform of the library please mention it.
- **Please run any tests or examples that can exercise your modified code.** We
strive to not break users of the code and running tests/examples helps with this
process.
Thank you again for contributing! We will try to test and integrate the change
as soon as we can, but be aware we have many GitHub repositories to manage and
can't immediately respond to every request. There is no need to bump or check in
on a pull request (it will clutter the discussion of the request).
Also don't be worried if the request is closed or not integrated--sometimes the
priorities of Adafruit's GitHub code (education, ease of use) might not match the
priorities of the pull request. Don't fret, the open source community thrives on
forks and GitHub makes it easy to keep your changes in a forked repo.
After reviewing the guidelines above you can delete this text from the pull request.

4
lib/Adafruit_SGP30-1.0.0.13/.gitignore vendored
View File

@ -1,4 +0,0 @@
*~
Doxyfile*
doxygen_sqlite3.db
html

27
lib/Adafruit_SGP30-1.0.0.13/.travis.yml
View File

@ -1,27 +0,0 @@
language: c
sudo: false
# Blacklist
branches:
except:
- gh-pages
env:
global:
- PRETTYNAME="Adafruit SGP30 Arduino Library"
# Optional, will default to "$TRAVIS_BUILD_DIR/Doxyfile"
# - DOXYFILE: $TRAVIS_BUILD_DIR/Doxyfile
before_install:
- source <(curl -SLs https://raw.githubusercontent.com/adafruit/travis-ci-arduino/master/install.sh)
#install:
# - arduino --install-library "Adafruit ILI9341","Adafruit GFX Library"
script:
- build_main_platforms
# Generate and deploy documentation
after_success:
- source <(curl -SLs https://raw.githubusercontent.com/adafruit/travis-ci-arduino/master/library_check.sh)
- source <(curl -SLs https://raw.githubusercontent.com/adafruit/travis-ci-arduino/master/doxy_gen_and_deploy.sh)

243
lib/Adafruit_SGP30-1.0.0.13/Adafruit_SGP30.cpp
View File

@ -1,243 +0,0 @@
/*!
* @file Adafruit_SGP30.cpp
*
* @mainpage Adafruit SGP30 gas sensor driver
*
* @section intro_sec Introduction
*
* This is the documentation for Adafruit's SGP30 driver for the
* Arduino platform. It is designed specifically to work with the
* Adafruit SGP30 breakout: http://www.adafruit.com/products/3709
*
* These sensors use I2C to communicate, 2 pins (SCL+SDA) are required
* to interface with the breakout.
*
* Adafruit invests time and resources providing this open source code,
* please support Adafruit and open-source hardware by purchasing
* products from Adafruit!
*
*
* @section author Author
* Written by Ladyada for Adafruit Industries.
*
* @section license License
* BSD license, all text here must be included in any redistribution.
*
*/
#if ARDUINO >= 100
#include "Arduino.h"
#else
#include "WProgram.h"
#endif
#include "Adafruit_SGP30.h"
//#define I2C_DEBUG
/**************************************************************************/
/*!
@brief Instantiates a new SGP30 class
*/
/**************************************************************************/
Adafruit_SGP30::Adafruit_SGP30() {
}
/**************************************************************************/
/*!
@brief Setups the hardware and detects a valid SGP30. Initializes I2C
then reads the serialnumber and checks that we are talking to an SGP30
@param theWire Optional pointer to I2C interface, otherwise use Wire
@returns True if SGP30 found on I2C, False if something went wrong!
*/
/**************************************************************************/
boolean Adafruit_SGP30::begin(TwoWire *theWire) {
_i2caddr = SGP30_I2CADDR_DEFAULT;
if (theWire == NULL) {
_i2c = &Wire;
} else {
_i2c = theWire;
}
_i2c->begin();
uint8_t command[2];
command[0] = 0x36;
command[1] = 0x82;
if (! readWordFromCommand(command, 2, 10, serialnumber, 3))
return false;
uint16_t featureset;
command[0] = 0x20;
command[1] = 0x2F;
if (! readWordFromCommand(command, 2, 10, &featureset, 1))
return false;
//Serial.print("Featureset 0x"); Serial.println(featureset, HEX);
if (featureset != SGP30_FEATURESET)
return false;
if (! IAQinit())
return false;
return true;
}
/**************************************************************************/
/*!
@brief Commands the sensor to begin the IAQ algorithm. Must be called after startup.
@returns True if command completed successfully, false if something went wrong!
*/
/**************************************************************************/
boolean Adafruit_SGP30::IAQinit(void) {
uint8_t command[2];
command[0] = 0x20;
command[1] = 0x03;
return readWordFromCommand(command, 2, 10);
}
/**************************************************************************/
/*!
@brief Commands the sensor to take a single eCO2/VOC measurement. Places results in {@link TVOC} and {@link eCO2}
@returns True if command completed successfully, false if something went wrong!
*/
/**************************************************************************/
boolean Adafruit_SGP30::IAQmeasure(void) {
uint8_t command[2];
command[0] = 0x20;
command[1] = 0x08;
uint16_t reply[2];
if (! readWordFromCommand(command, 2, 12, reply, 2))
return false;
TVOC = reply[1];
eCO2 = reply[0];
return true;
}
/**************************************************************************/
/*!
@brief Request baseline calibration values for both CO2 and TVOC IAQ calculations. Places results in parameter memory locaitons.
@param eco2_base A pointer to a uint16_t which we will save the calibration value to
@param tvoc_base A pointer to a uint16_t which we will save the calibration value to
@returns True if command completed successfully, false if something went wrong!
*/
/**************************************************************************/
boolean Adafruit_SGP30::getIAQBaseline(uint16_t *eco2_base, uint16_t *tvoc_base) {
uint8_t command[2];
command[0] = 0x20;
command[1] = 0x15;
uint16_t reply[2];
if (! readWordFromCommand(command, 2, 10, reply, 2))
return false;
*eco2_base = reply[0];
*tvoc_base = reply[1];
return true;
}
/**************************************************************************/
/*!
@brief Assign baseline calibration values for both CO2 and TVOC IAQ calculations.
@param eco2_base A uint16_t which we will save the calibration value from
@param tvoc_base A uint16_t which we will save the calibration value from
@returns True if command completed successfully, false if something went wrong!
*/
/**************************************************************************/
boolean Adafruit_SGP30::setIAQBaseline(uint16_t eco2_base, uint16_t tvoc_base) {
uint8_t command[8];
command[0] = 0x20;
command[1] = 0x1e;
command[2] = tvoc_base >> 8;
command[3] = tvoc_base & 0xFF;
command[4] = generateCRC(command+2, 2);
command[5] = eco2_base >> 8;
command[6] = eco2_base & 0xFF;
command[7] = generateCRC(command+5, 2);
return readWordFromCommand(command, 8, 10);
}
/**************************************************************************/
/*!
@brief I2C low level interfacing
*/
/**************************************************************************/
boolean Adafruit_SGP30::readWordFromCommand(uint8_t command[], uint8_t commandLength, uint16_t delayms, uint16_t *readdata, uint8_t readlen)
{
uint8_t data;
_i2c->beginTransmission(_i2caddr);
#ifdef I2C_DEBUG
Serial.print("\t\t-> ");
#endif
for (uint8_t i=0; i<commandLength; i++) {
_i2c->write(command[i]);
#ifdef I2C_DEBUG
Serial.print("0x"); Serial.print(command[i], HEX); Serial.print(", ");
#endif
}
#ifdef I2C_DEBUG
Serial.println();
#endif
_i2c->endTransmission();
delay(delayms);
if (readlen == 0)
return true;
uint8_t replylen = readlen * (SGP30_WORD_LEN +1);
if (_i2c->requestFrom(_i2caddr, replylen) != replylen)
return false;
uint8_t replybuffer[replylen];
#ifdef I2C_DEBUG
Serial.print("\t\t<- ");
#endif
for (uint8_t i=0; i<replylen; i++) {
replybuffer[i] = _i2c->read();
#ifdef I2C_DEBUG
Serial.print("0x"); Serial.print(replybuffer[i], HEX); Serial.print(", ");
#endif
}
#ifdef I2C_DEBUG
Serial.println();
#endif
for (uint8_t i=0; i<readlen; i++) {
uint8_t crc = generateCRC(replybuffer+i*3, 2);
#ifdef I2C_DEBUG
Serial.print("\t\tCRC calced: 0x"); Serial.print(crc, HEX);
Serial.print(" vs. 0x"); Serial.println(replybuffer[i * 3 + 2], HEX);
#endif
if (crc != replybuffer[i * 3 + 2])
return false;
// success! store it
readdata[i] = replybuffer[i*3];
readdata[i] <<= 8;
readdata[i] |= replybuffer[i*3 + 1];
#ifdef I2C_DEBUG
Serial.print("\t\tRead: 0x"); Serial.println(readdata[i], HEX);
#endif
}
return true;
}
uint8_t Adafruit_SGP30::generateCRC(uint8_t *data, uint8_t datalen) {
// calculates 8-Bit checksum with given polynomial
uint8_t crc = SGP30_CRC8_INIT;
for (uint8_t i=0; i<datalen; i++) {
crc ^= data[i];
for (uint8_t b=0; b<8; b++) {
if (crc & 0x80)
crc = (crc << 1) ^ SGP30_CRC8_POLYNOMIAL;
else
crc <<= 1;
}
}
return crc;
}

68
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@ -1,68 +0,0 @@
/*!
* @file Adafruit_SGP30.h
*
* This is the documentation for Adafruit's SGP30 driver for the
* Arduino platform. It is designed specifically to work with the
* Adafruit SGP30 breakout: http://www.adafruit.com/products/3709
*
* These sensors use I2C to communicate, 2 pins (SCL+SDA) are required
* to interface with the breakout.
*
* Adafruit invests time and resources providing this open source code,
* please support Adafruit and open-source hardware by purchasing
* products from Adafruit!
*
* Written by Ladyada for Adafruit Industries.
*
* BSD license, all text here must be included in any redistribution.
*
*/
#include "Arduino.h"
#include <Wire.h>
// the i2c address
#define SGP30_I2CADDR_DEFAULT 0x58 ///< SGP30 has only one I2C address
// commands and constants
#define SGP30_FEATURESET 0x0020 ///< The required set for this library
#define SGP30_CRC8_POLYNOMIAL 0x31 ///< Seed for SGP30's CRC polynomial
#define SGP30_CRC8_INIT 0xFF ///< Init value for CRC
#define SGP30_WORD_LEN 2 ///< 2 bytes per word
/**************************************************************************/
/*! Class that stores state and functions for interacting with SGP30 Gas Sensor */
/**************************************************************************/
class Adafruit_SGP30 {
public:
Adafruit_SGP30();
boolean begin(TwoWire *theWire = NULL);
boolean IAQinit(void);
boolean IAQmeasure(void);
boolean getIAQBaseline(uint16_t *eco2_base, uint16_t *tvoc_base);
boolean setIAQBaseline(uint16_t eco2_base, uint16_t tvoc_base);
/**
* The last measurement of the IAQ-calculated Total Volatile Organic Compounds in ppb. This value is set when you call {@link IAQmeasure()}
*/
uint16_t TVOC;
/**
* The last measurement of the IAQ-calculated equivalent CO2 in ppm. This value is set when you call {@link IAQmeasure()}
*/
uint16_t eCO2;
/**
* The 48-bit serial number, this value is set when you call {@link begin()}
*/
uint16_t serialnumber[3];
private:
TwoWire *_i2c;
uint8_t _i2caddr;
void write(uint8_t address, uint8_t *data, uint8_t n);
void read(uint8_t address, uint8_t *data, uint8_t n);
boolean readWordFromCommand(uint8_t command[], uint8_t commandLength, uint16_t delay, uint16_t *readdata = NULL, uint8_t readlen = 0);
uint8_t generateCRC(uint8_t data[], uint8_t datalen);
};

18
lib/Adafruit_SGP30-1.0.0.13/README.md
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@ -1,18 +0,0 @@
Adafruit_SGP30
================
This is the Adafruit SGP30 Gas / Air Quality I2C sensor library
Tested and works great with the Aadafruit SGP30 Breakout Board
* http://www.adafruit.com/products/3709
This chip uses I2C to communicate, 2 pins are required to interface
Adafruit invests time and resources providing this open source code,
please support Adafruit and open-source hardware by purchasing
products from Adafruit!
Written by Limor Fried for Adafruit Industries.
BSD license, check license.txt for more information
All text above must be included in any redistribution

45
lib/Adafruit_SGP30-1.0.0.13/examples/sgp30test/sgp30test.ino
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@ -1,45 +0,0 @@
#include <Wire.h>
#include "Adafruit_SGP30.h"
Adafruit_SGP30 sgp;
void setup() {
Serial.begin(9600);
Serial.println("SGP30 test");
if (! sgp.begin()){
Serial.println("Sensor not found :(");
while (1);
}
Serial.print("Found SGP30 serial #");
Serial.print(sgp.serialnumber[0], HEX);
Serial.print(sgp.serialnumber[1], HEX);
Serial.println(sgp.serialnumber[2], HEX);
// If you have a baseline measurement from before you can assign it to start, to 'self-calibrate'
//sgp.setIAQBaseline(0x8E68, 0x8F41); // Will vary for each sensor!
}
int counter = 0;
void loop() {
if (! sgp.IAQmeasure()) {
Serial.println("Measurement failed");
return;
}
Serial.print("TVOC "); Serial.print(sgp.TVOC); Serial.print(" ppb\t");
Serial.print("eCO2 "); Serial.print(sgp.eCO2); Serial.println(" ppm");
delay(1000);
counter++;
if (counter == 30) {
counter = 0;
uint16_t TVOC_base, eCO2_base;
if (! sgp.getIAQBaseline(&eCO2_base, &TVOC_base)) {
Serial.println("Failed to get baseline readings");
return;
}
Serial.print("****Baseline values: eCO2: 0x"); Serial.print(eCO2_base, HEX);
Serial.print(" & TVOC: 0x"); Serial.println(TVOC_base, HEX);
}
}

9
lib/Adafruit_SGP30-1.0.0.13/library.properties
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@ -1,9 +0,0 @@
name=Adafruit SGP30 Sensor
version=1.0.2
author=Adafruit
maintainer=Adafruit <info@adafruit.com>
sentence=This is an Arduino library for the Adafruit SGP30 Gas / Air Quality Sensor
paragraph=This is an Arduino library for the Adafruit SGP30 Gas / Air Quality Sensor
category=Sensors
url=https://github.com/adafruit/Adafruit_SGP30
architectures=*

26
lib/Adafruit_SGP30-1.0.0.13/license.txt
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@ -1,26 +0,0 @@
Software License Agreement (BSD License)
Copyright (c) 2012, Adafruit Industries
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. Neither the name of the copyright holders nor the
names of its 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 ''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 HOLDER 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.

8
lib/ArduinoJson-5.11.2/ArduinoJson.h
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@ -1,8 +0,0 @@
// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#include "src/ArduinoJson.h"

512
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@ -1,512 +0,0 @@
ArduinoJson: change log
=======================
v5.11.2
-------
* Fixed `DynamicJsonBuffer::clear()` not resetting allocation size (issue #561)
* Fixed incorrect rounding for float values (issue #588)
v5.11.1
-------
* Removed dependency on `PGM_P` as Particle 0.6.2 doesn't define it (issue #546)
* Fixed warning "dereferencing type-punned pointer will break strict-aliasing rules [-Wstrict-aliasing]"
* Fixed warning "floating constant exceeds range of 'float' [-Woverflow]" (issue #544)
* Fixed warning "this statement may fall through" [-Wimplicit-fallthrough=] (issue #539)
* Removed `ARDUINOJSON_DOUBLE_IS_64BITS` as it became useless.
* Fixed too many decimals places in float serialization (issue #543)
v5.11.0
-------
* Made `JsonBuffer` non-copyable (PR #524 by @luisrayas3)
* Added `StaticJsonBuffer::clear()`
* Added `DynamicJsonBuffer::clear()`
v5.10.1
-------
* Fixed IntelliSense errors in Visual Micro (issue #483)
* Fixed compilation in IAR Embedded Workbench (issue #515)
* Fixed reading "true" as a float (issue #516)
* Added `ARDUINOJSON_DOUBLE_IS_64BITS`
* Added `ARDUINOJSON_EMBEDDED_MODE`
v5.10.0
-------
* Removed configurable number of decimal places (issues #288, #427 and #506)
* Changed exponentiation thresholds to `1e7` and `1e-5` (issues #288, #427 and #506)
* `JsonVariant::is<double>()` now returns `true` for integers
* Fixed error `IsBaseOf is not a member of ArduinoJson::TypeTraits` (issue #495)
* Fixed error `forming reference to reference` (issue #495)
### BREAKING CHANGES :warning:
| Old syntax | New syntax |
|---------------------------------|---------------------|
| `double_with_n_digits(3.14, 2)` | `3.14` |
| `float_with_n_digits(3.14, 2)` | `3.14f` |
| `obj.set("key", 3.14, 2)` | `obj["key"] = 3.14` |
| `arr.add(3.14, 2)` | `arr.add(3.14)` |
| Input | Old output | New output |
|-----------|------------|------------|
| `3.14159` | `3.14` | `3.14159` |
| `42.0` | `42.00` | `42` |
| `0.0` | `0.00` | `0` |
| Expression | Old result | New result |
|--------------------------------|------------|------------|
| `JsonVariant(42).is<int>()` | `true` | `true` |
| `JsonVariant(42).is<float>()` | `false` | `true` |
| `JsonVariant(42).is<double>()` | `false` | `true` |
v5.9.0
------
* Added `JsonArray::remove(iterator)` (issue #479)
* Added `JsonObject::remove(iterator)`
* Renamed `JsonArray::removeAt(size_t)` into `remove(size_t)`
* Renamed folder `include/` to `src/`
* Fixed warnings `floating constant exceeds range of float`and `floating constant truncated to zero` (issue #483)
* Removed `Print` class and converted `printTo()` to a template method (issue #276)
* Removed example `IndentedPrintExample.ino`
* Now compatible with Particle 0.6.1, thanks to Jacob Nite (issue #294 and PR #461 by @foodbag)
v5.8.4
------
* Added custom implementation of `strtod()` (issue #453)
* Added custom implementation of `strtol()` (issue #465)
* `char` is now treated as an integral type (issue #337, #370)
v5.8.3
------
* Fixed an access violation in `DynamicJsonBuffer` when memory allocation fails (issue #433)
* Added operators `==` and `!=` for two `JsonVariant`s (issue #436)
* Fixed `JsonVariant::operator[const FlashStringHelper*]` (issue #441)
v5.8.2
------
* Fixed parsing of comments (issue #421)
* Fixed ignored `Stream` timeout (issue #422)
* Made sure we don't read more that necessary (issue #422)
* Fixed error when the key of a `JsonObject` is a `char[]` (issue #423)
* Reduced code size when using `const` references
* Fixed error with string of type `unsigned char*` (issue #428)
* Added `deprecated` attribute on `asArray()`, `asObject()` and `asString()` (issue #420)
v5.8.1
------
* Fixed error when assigning a `volatile int` to a `JsonVariant` (issue #415)
* Fixed errors with Variable Length Arrays (issue #416)
* Fixed error when both `ARDUINOJSON_ENABLE_STD_STREAM` and `ARDUINOJSON_ENABLE_ARDUINO_STREAM` are set to `1`
* Fixed error "Stream does not name a type" (issue #412)
v5.8.0
------
* Added operator `==` to compare `JsonVariant` and strings (issue #402)
* Added support for `Stream` (issue #300)
* Reduced memory consumption by not duplicating spaces and comments
### BREAKING CHANGES :warning:
`JsonBuffer::parseObject()` and `JsonBuffer::parseArray()` have been pulled down to the derived classes `DynamicJsonBuffer` and `StaticJsonBufferBase`.
This means that if you have code like:
```c++
void myFunction(JsonBuffer& jsonBuffer);
```
you need to replace it with one of the following:
```c++
void myFunction(DynamicJsonBuffer& jsonBuffer);
void myFunction(StaticJsonBufferBase& jsonBuffer);
template<typename TJsonBuffer> void myFunction(TJsonBuffer& jsonBuffer);
```
v5.7.3
------
* Added an `printTo(char[N])` and `prettyPrintTo(char[N])` (issue #292)
* Added ability to set a nested value like this: `root["A"]["B"] = "C"` (issue #352)
* Renamed `*.ipp` to `*Impl.hpp` because they were ignored by Arduino IDE (issue #396)
v5.7.2
------
* Made PROGMEM available on more platforms (issue #381)
* Fixed PROGMEM causing an exception on ESP8266 (issue #383)
v5.7.1
------
* Added support for PROGMEM (issue #76)
* Fixed compilation error when index is not an `int` (issue #381)
v5.7.0
------
* Templatized all functions using `String` or `std::string`
* Removed `ArduinoJson::String`
* Removed `JsonVariant::defaultValue<T>()`
* Removed non-template `JsonObject::get()` and `JsonArray.get()`
* Fixed support for `StringSumHelper` (issue #184)
* Replaced `ARDUINOJSON_USE_ARDUINO_STRING` by `ARDUINOJSON_ENABLE_STD_STRING` and `ARDUINOJSON_ENABLE_ARDUINO_STRING` (issue #378)
* Added example `StringExample.ino` to show where `String` can be used
* Increased default nesting limit to 50 when compiled for a computer (issue #349)
### BREAKING CHANGES :warning:
The non-template functions `JsonObject::get()` and `JsonArray.get()` have been removed. This means that you need to explicitely tell the type you expect in return.
Old code:
```c++
#define ARDUINOJSON_USE_ARDUINO_STRING 0
JsonVariant value1 = myObject.get("myKey");
JsonVariant value2 = myArray.get(0);
```
New code:
```c++
#define ARDUINOJSON_ENABLE_ARDUINO_STRING 0
#define ARDUINOJSON_ENABLE_STD_STRING 1
JsonVariant value1 = myObject.get<JsonVariant>("myKey");
JsonVariant value2 = myArray.get<JsonVariant>(0);
```
v5.6.7
------
* Fixed `array[idx].as<JsonVariant>()` and `object[key].as<JsonVariant>()`
* Fixed return value of `JsonObject::set()` (issue #350)
* Fixed undefined behavior in `Prettyfier` and `Print` (issue #354)
* Fixed parser that incorrectly rejected floats containing a `+` (issue #349)
v5.6.6
------
* Fixed `-Wparentheses` warning introduced in v5.6.5 (PR #335 by @nuket)
* Added `.mbedignore` for ARM mbdeb (PR #334 by @nuket)
* Fixed `JsonVariant::success()` which didn't propagate `JsonArray::success()` nor `JsonObject::success()` (issue #342).
v5.6.5
------
* `as<char*>()` now returns `true` when input is `null` (issue #330)
v5.6.4
------
* Fixed error in float serialization (issue #324)
v5.6.3
------
* Improved speed of float serialization (about twice faster)
* Added `as<JsonArray>()` as a synonym for `as<JsonArray&>()`... (issue #291)
* Fixed `call of overloaded isinf(double&) is ambiguous` (issue #284)
v5.6.2
------
* Fixed build when another lib does `#undef isnan` (issue #284)
v5.6.1
------
* Added missing `#pragma once` (issue #310)
v5.6.0
------
* ArduinoJson is now a header-only library (issue #199)
v5.5.1
------
* Fixed compilation error with Intel Galileo (issue #299)
v5.5.0
------
* Added `JsonVariant::success()` (issue #279)
* Renamed `JsonVariant::invalid<T>()` to `JsonVariant::defaultValue<T>()`
v5.4.0
------
* Changed `::String` to `ArduinoJson::String` (issue #275)
* Changed `::Print` to `ArduinoJson::Print` too
v5.3.0
------
* Added custom implementation of `ftoa` (issues #266, #267, #269 and #270)
* Added `JsonVariant JsonBuffer::parse()` (issue #265)
* Fixed `unsigned long` printed as `signed long` (issue #170)
v5.2.0
------
* Added `JsonVariant::as<char*>()` as a synonym for `JsonVariant::as<const char*>()` (issue #257)
* Added example `JsonHttpClient` (issue #256)
* Added `JsonArray::copyTo()` and `JsonArray::copyFrom()` (issue #254)
* Added `RawJson()` to insert pregenerated JSON portions (issue #259)
v5.1.1
------
* Removed `String` duplication when one replaces a value in a `JsonObject` (PR #232 by @ulion)
v5.1.0
------
* Added support of `long long` (issue #171)
* Moved all build settings to `ArduinoJson/Configuration.hpp`
**BREAKING CHANGE**:
If you defined `ARDUINOJSON_ENABLE_STD_STREAM`, you now need to define it to `1`.
v5.0.8
------
* Made the library compatible with [PlatformIO](http://platformio.org/) (issue #181)
* Fixed `JsonVariant::is<bool>()` that was incorrectly returning false (issue #214)
v5.0.7
------
* Made library easier to use from a CMake project: simply `add_subdirectory(ArduinoJson/src)`
* Changed `String` to be a `typedef` of `std::string` (issues #142 and #161)
### BREAKING CHANGES :warning:
- `JsonVariant(true).as<String>()` now returns `"true"` instead of `"1"`
- `JsonVariant(false).as<String>()` now returns `"false"` instead of `"0"`
v5.0.6
------
* Added parameter to `DynamicJsonBuffer` constructor to set initial size (issue #152)
* Fixed warning about library category in Arduino 1.6.6 (issue #147)
* Examples: Added a loop to wait for serial port to be ready (issue #156)
v5.0.5
------
* Added overload `JsonObjectSuscript::set(value, decimals)` (issue #143)
* Use `float` instead of `double` to reduce the size of `JsonVariant` (issue #134)
v5.0.4
------
* Fixed ambiguous overload with `JsonArraySubscript` and `JsonObjectSubscript` (issue #122)
v5.0.3
------
* Fixed `printTo(String)` which wrote numbers instead of strings (issue #120)
* Fixed return type of `JsonArray::is<T>()` and some others (issue #121)
v5.0.2
------
* Fixed segmentation fault in `parseObject(String)` and `parseArray(String)`, when the
`StaticJsonBuffer` is too small to hold a copy of the string
* Fixed Clang warning "register specifier is deprecated" (issue #102)
* Fixed GCC warning "declaration shadows a member" (issue #103)
* Fixed memory alignment, which made ESP8266 crash (issue #104)
* Fixed compilation on Visual Studio 2010 and 2012 (issue #107)
v5.0.1
------
* Fixed compilation with Arduino 1.0.6 (issue #99)
v5.0.0
------
* Added support of `String` class (issues #55, #56, #70, #77)
* Added `JsonBuffer::strdup()` to make a copy of a string (issues #10, #57)
* Implicitly call `strdup()` for `String` but not for `char*` (issues #84, #87)
* Added support of non standard JSON input (issue #44)
* Added support of comments in JSON input (issue #88)
* Added implicit cast between numerical types (issues #64, #69, #93)
* Added ability to read number values as string (issue #90)
* Redesigned `JsonVariant` to leverage converting constructors instead of assignment operators (issue #66)
* Switched to new the library layout (requires Arduino 1.0.6 or above)
### BREAKING CHANGES :warning:
- `JsonObject::add()` was renamed to `set()`
- `JsonArray::at()` and `JsonObject::at()` were renamed to `get()`
- Number of digits of floating point value are now set with `double_with_n_digits()`
**Personal note about the `String` class**:
Support of the `String` class has been added to the library because many people use it in their programs.
However, you should not see this as an invitation to use the `String` class.
The `String` class is **bad** because it uses dynamic memory allocation.
Compared to static allocation, it compiles to a bigger, slower program, and is less predictable.
You certainly don't want that in an embedded environment!
v4.6
----
* Fixed segmentation fault in `DynamicJsonBuffer` when memory allocation fails (issue #92)
v4.5
----
* Fixed buffer overflow when input contains a backslash followed by a terminator (issue #81)
**Upgrading is recommended** since previous versions contain a potential security risk.
Special thanks to [Giancarlo Canales Barreto](https://github.com/gcanalesb) for finding this nasty bug.
v4.4
----
* Added `JsonArray::measureLength()` and `JsonObject::measureLength()` (issue #75)
v4.3
----
* Added `JsonArray::removeAt()` to remove an element of an array (issue #58)
* Fixed stack-overflow in `DynamicJsonBuffer` when parsing huge JSON files (issue #65)
* Fixed wrong return value of `parseArray()` and `parseObject()` when allocation fails (issue #68)
v4.2
----
* Switched back to old library layout (issues #39, #43 and #45)
* Removed global new operator overload (issue #40, #45 and #46)
* Added an example with EthernetServer
v4.1
----
* Added DynamicJsonBuffer (issue #19)
v4.0
----
* Unified parser and generator API (issue #23)
* Updated library layout, now requires Arduino 1.0.6 or newer
**BREAKING CHANGE**: API changed significantly, see [Migrating code to the new API](https://github.com/bblanchon/ArduinoJson/wiki/Migrating-code-to-the-new-API).
v3.4
----
* Fixed escaped char parsing (issue #16)
v3.3
----
* Added indented output for the JSON generator (issue #11), see example bellow.
* Added `IndentedPrint`, a decorator for `Print` to allow indented output
Example:
JsonOject<2> json;
json["key"] = "value";
json.prettyPrintTo(Serial);
v3.2
----
* Fixed a bug when adding nested object in `JsonArray` (bug introduced in v3.1).
v3.1
----
* Calling `Generator::JsonObject::add()` twice with the same `key` now replaces the `value`
* Added `Generator::JsonObject::operator[]`, see bellow the new API
* Added `Generator::JsonObject::remove()` (issue #9)
Old generator API:
JsonObject<3> root;
root.add("sensor", "gps");
root.add("time", 1351824120);
root.add("data", array);
New generator API:
JsonObject<3> root;
root["sensor"] = "gps";
root["time"] = 1351824120;
root["data"] = array;
v3.0
----
* New parser API, see bellow
* Renamed `JsonHashTable` into `JsonObject`
* Added iterators for `JsonArray` and `JsonObject` (issue #4)
Old parser API:
JsonHashTable root = parser.parseHashTable(json);
char* sensor = root.getString("sensor");
long time = root.getLong("time");
double latitude = root.getArray("data").getDouble(0);
double longitude = root.getArray("data").getDouble(1);
New parser API:
JsonObject root = parser.parse(json);
char* sensor = root["sensor"];
long time = root["time"];
double latitude = root["data"][0];
double longitude = root["data"][1];
v2.1
----
* Fixed case `#include "jsmn.cpp"` which caused an error in Linux (issue #6)
* Fixed a buffer overrun in JSON Parser (issue #5)
v2.0
----
* Added JSON encoding (issue #2)
* Renamed the library `ArduinoJsonParser` becomes `ArduinoJson`
**Breaking change**: you need to add the following line at the top of your program.
using namespace ArduinoJson::Parser;
v1.2
----
* Fixed error in JSON parser example (issue #1)
v1.1
----
* Example: changed `char* json` into `char[] json` so that the bytes are not write protected
* Fixed parsing bug when the JSON contains multi-dimensional arrays
v1.0
----
Initial release

10
lib/ArduinoJson-5.11.2/LICENSE.md
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The MIT License (MIT)
---------------------
Copyright © 2014-2017 Benoit BLANCHON
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the “Software”), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED “AS IS”, WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.

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[![Build status](https://ci.appveyor.com/api/projects/status/m7s53wav1l0abssg/branch/master?svg=true)](https://ci.appveyor.com/project/bblanchon/arduinojson/branch/master) [![Build Status](https://travis-ci.org/bblanchon/ArduinoJson.svg?branch=master)](https://travis-ci.org/bblanchon/ArduinoJson) [![Coverage Status](https://img.shields.io/coveralls/bblanchon/ArduinoJson.svg)](https://coveralls.io/r/bblanchon/ArduinoJson?branch=master) [![Star this project](http://githubbadges.com/star.svg?user=bblanchon&repo=ArduinoJson&style=flat&color=fff&background=007ec6)](https://github.com/bblanchon/ArduinoJson)
![ArduinoJson's logo](banner.svg)
ArduinoJson - C++ JSON library for IoT
====================
*An elegant and efficient JSON library for embedded systems.*
It's designed to have the most intuitive API, the smallest footprint and is able to work without any allocation on the heap (no malloc).
It has been written with Arduino in mind, but it isn't linked to Arduino libraries so you can use this library in any other C++ project.
For instance, it supports Aduino's `String` and `Stream`, but also `std::string`, `std::istream` and `std::ostream`.
Features
--------
* JSON decoding (comments are supported)
* JSON encoding (with optional indentation)
* Elegant API, very easy to use
* Fixed memory allocation (zero malloc)
* No data duplication (zero copy)
* Portable (written in C++98)
* Self-contained (no external dependency)
* Small footprint
* Header-only library
* MIT License
Works on
--------
* Arduino boards: Uno, Due, Mini, Micro, Yun...
* ESP8266, ESP32
* Teensy
* RedBearLab boards (BLE Nano...)
* Intel Edison and Galileo
* WeMos boards: D1...
* Computers: Windows, Linux, OSX...
* PlatformIO
* Particle
* Energia
Quick start
-----------
#### Decoding / Parsing
```c++
char json[] = "{\"sensor\":\"gps\",\"time\":1351824120,\"data\":[48.756080,2.302038]}";
StaticJsonBuffer<200> jsonBuffer;
JsonObject& root = jsonBuffer.parseObject(json);
const char* sensor = root["sensor"];
long time = root["time"];
double latitude = root["data"][0];
double longitude = root["data"][1];
```
[See JsonParserExample.ino](examples/JsonParserExample/JsonParserExample.ino)
Use [ArduinoJson Assistant](https://bblanchon.github.io/ArduinoJson/assistant/) to compute the buffer size.
#### Encoding / Generating
```c++
StaticJsonBuffer<200> jsonBuffer;
JsonObject& root = jsonBuffer.createObject();
root["sensor"] = "gps";
root["time"] = 1351824120;
JsonArray& data = root.createNestedArray("data");
data.add(48.756080);
data.add(2.302038);
root.printTo(Serial);
// This prints:
// {"sensor":"gps","time":1351824120,"data":[48.756080,2.302038]}
```
[See JsonGeneratorExample.ino](examples/JsonGeneratorExample/JsonGeneratorExample.ino)
Use [ArduinoJson Assistant](https://bblanchon.github.io/ArduinoJson/assistant/) to compute the buffer size.
Documentation
-------------
The documentation is available online in the [ArduinoJson Website](https://bblanchon.github.io/ArduinoJson/).
The [ArduinoJson Assistant](https://bblanchon.github.io/ArduinoJson/assistant/) helps you get started with the library.
Donators
--------
Special thanks to the following persons and companies who made generous donations to the library author:
* Robert Murphy <img alt='USA' src='https://cdnjs.cloudflare.com/ajax/libs/emojione/2.1.4/assets/svg/1f1fa-1f1f8.svg' width='18' height='18'>
* Surge Communications <img alt='USA' src='https://cdnjs.cloudflare.com/ajax/libs/emojione/2.1.4/assets/svg/1f1fa-1f1f8.svg' width='18' height='18'>
* Alex Scott <img alt='United Kingdom' src='https://cdnjs.cloudflare.com/ajax/libs/emojione/2.1.4/assets/svg/1f1ec-1f1e7.svg' width='18' height='18'>
* Firepick Services LLC <img alt='USA' src='https://cdnjs.cloudflare.com/ajax/libs/emojione/2.1.4/assets/svg/1f1fa-1f1f8.svg' width='18' height='18'>
* A B Doodkorte <img alt='Netherlands' src='https://cdnjs.cloudflare.com/ajax/libs/emojione/2.1.4/assets/svg/1f1f3-1f1f1.svg' width='18' height='18'>
* Scott Smith <img alt='USA' src='https://cdnjs.cloudflare.com/ajax/libs/emojione/2.1.4/assets/svg/1f1fa-1f1f8.svg' width='18' height='18'>
* Johann Stieger <img alt='Austria' src='https://cdnjs.cloudflare.com/ajax/libs/emojione/2.1.4/assets/svg/1f1e6-1f1f9.svg' width='18' height='18'>
* Gustavo Donizeti Gini <img alt='Brazil' src='https://cdnjs.cloudflare.com/ajax/libs/emojione/2.1.4/assets/svg/1f1e7-1f1f7.svg' width='18' height='18'>
* Charles-Henri Hallard <img alt='France' src='https://cdnjs.cloudflare.com/ajax/libs/emojione/2.1.4/assets/svg/1f1eb-1f1f7.svg' width='18' height='18'>
* Martijn van den Burg <img alt='Netherlands' src='https://cdnjs.cloudflare.com/ajax/libs/emojione/2.1.4/assets/svg/1f1f3-1f1f1.svg' width='18' height='18'>
* Nick Koumaris <img alt='Greece' src='https://cdnjs.cloudflare.com/ajax/libs/emojione/2.1.4/assets/svg/1f1ec-1f1f7.svg' width='18' height='18'>
* Jon Williams <img alt='USA' src='https://cdnjs.cloudflare.com/ajax/libs/emojione/2.1.4/assets/svg/1f1fa-1f1f8.svg' width='18' height='18'>
* Kestutis Liaugminas <img alt='Lithuania' src='https://cdnjs.cloudflare.com/ajax/libs/emojione/2.1.4/assets/svg/1f1f1-1f1f9.svg' width='18' height='18'>
* Darlington Adibe <img alt='Nigeria' src='https://cdnjs.cloudflare.com/ajax/libs/emojione/2.1.4/assets/svg/1f1f3-1f1ec.svg' width='18' height='18'>
* Yoeri Kroon <img alt='Netherlands' src='https://cdnjs.cloudflare.com/ajax/libs/emojione/2.1.4/assets/svg/1f1f3-1f1f1.svg' width='18' height='18'>
* Andrew Melvin <img alt='United Kingdom' src='https://cdnjs.cloudflare.com/ajax/libs/emojione/2.1.4/assets/svg/1f1ec-1f1e7.svg' width='18' height='18'>
* Doanh Luong <img alt ='Vietnam' src='https://cdnjs.cloudflare.com/ajax/libs/emojione/2.1.4/assets/svg/1f1fb-1f1f3.svg' width='18' height='18'>
* Christoph Schmidt <img alt='Germany' src='https://cdnjs.cloudflare.com/ajax/libs/emojione/2.1.4/assets/svg/1f1e9-1f1ea.svg' width='18' height='18'>
* OpenEVSE LLC <img alt='USA' src='https://cdnjs.cloudflare.com/ajax/libs/emojione/2.1.4/assets/svg/1f1fa-1f1f8.svg' width='18' height='18'>
* Prokhoryatov Alexey <img alt='Russia' src='https://cdnjs.cloudflare.com/ajax/libs/emojione/2.1.4/assets/svg/1f1f7-1f1fa.svg' width='18' height='18'>
* Google Inc. <img alt='USA' src='https://cdnjs.cloudflare.com/ajax/libs/emojione/2.1.4/assets/svg/1f1fa-1f1f8.svg' width='18' height='18'>
* Charles Haynes <img alt='Australia' src='https://d1j8pt39hxlh3d.cloudfront.net/development/emojione/2.2/989/2546.svg' width='18' height='18'>
* Charles Walker <img alt='USA' src='https://cdnjs.cloudflare.com/ajax/libs/emojione/2.1.4/assets/svg/1f1fa-1f1f8.svg' width='18' height='18'>
* Günther Jehle <img alt='Liechtenstein' src='https://cdnjs.cloudflare.com/ajax/libs/emojione/2.1.4/assets/svg/1f1f1-1f1ee.svg' width='18' height='18'>
* Patrick Elliott
---
Found this library useful? Please star this project or [help me back with a donation!](https://www.paypal.com/cgi-bin/webscr?cmd=_donations&business=donate%40benoitblanchon%2efr&lc=GB&item_name=Benoit%20Blanchon&item_number=Arduino%20JSON&currency_code=EUR&bn=PP%2dDonationsBF%3abtn_donate_LG%2egif%3aNonHosted) :smile:

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#include <ArduinoJson.h>
void setup() {
Serial.begin(9600);
while (!Serial) {
// wait serial port initialization
}
// Memory pool for JSON object tree.
//
// Inside the brackets, 200 is the size of the pool in bytes.
// If the JSON object is more complex, you need to increase that value.
// See https://bblanchon.github.io/ArduinoJson/assistant/
StaticJsonBuffer<200> jsonBuffer;
// StaticJsonBuffer allocates memory on the stack, it can be
// replaced by DynamicJsonBuffer which allocates in the heap.
//
// DynamicJsonBuffer jsonBuffer(200);
// Create the root of the object tree.
//
// It's a reference to the JsonObject, the actual bytes are inside the
// JsonBuffer with all the other nodes of the object tree.
// Memory is freed when jsonBuffer goes out of scope.
JsonObject& root = jsonBuffer.createObject();
// Add values in the object
//
// Most of the time, you can rely on the implicit casts.
// In other case, you can do root.set<long>("time", 1351824120);
root["sensor"] = "gps";
root["time"] = 1351824120;
// Add a nested array.
//
// It's also possible to create the array separately and add it to the
// JsonObject but it's less efficient.
JsonArray& data = root.createNestedArray("data");
data.add(48.756080);
data.add(2.302038);
root.printTo(Serial);
// This prints:
// {"sensor":"gps","time":1351824120,"data":[48.756080,2.302038]}
Serial.println();
root.prettyPrintTo(Serial);
// This prints:
// {
// "sensor": "gps",
// "time": 1351824120,
// "data": [
// 48.756080,
// 2.302038
// ]
// }
}
void loop() {
// not used in this example
}

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// Sample Arduino Json Web Client
// Downloads and parse http://jsonplaceholder.typicode.com/users/1
//
// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#include <ArduinoJson.h>
#include <Ethernet.h>
#include <SPI.h>
EthernetClient client;
const char* server = "jsonplaceholder.typicode.com"; // server's address
const char* resource = "/users/1"; // http resource
const unsigned long BAUD_RATE = 9600; // serial connection speed
const unsigned long HTTP_TIMEOUT = 10000; // max respone time from server
const size_t MAX_CONTENT_SIZE = 512; // max size of the HTTP response
// The type of data that we want to extract from the page
struct UserData {
char name[32];
char company[32];
};
// ARDUINO entry point #1: runs once when you press reset or power the board
void setup() {
initSerial();
initEthernet();
}
// ARDUINO entry point #2: runs over and over again forever
void loop() {
if (connect(server)) {
if (sendRequest(server, resource) && skipResponseHeaders()) {
UserData userData;
if (readReponseContent(&userData)) {
printUserData(&userData);
}
}
}
disconnect();
wait();
}
// Initialize Serial port
void initSerial() {
Serial.begin(BAUD_RATE);
while (!Serial) {
; // wait for serial port to initialize
}
Serial.println("Serial ready");
}
// Initialize Ethernet library
void initEthernet() {
byte mac[] = {0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0xED};
if (!Ethernet.begin(mac)) {
Serial.println("Failed to configure Ethernet");
return;
}
Serial.println("Ethernet ready");
delay(1000);
}
// Open connection to the HTTP server
bool connect(const char* hostName) {
Serial.print("Connect to ");
Serial.println(hostName);
bool ok = client.connect(hostName, 80);
Serial.println(ok ? "Connected" : "Connection Failed!");
return ok;
}
// Send the HTTP GET request to the server
bool sendRequest(const char* host, const char* resource) {
Serial.print("GET ");
Serial.println(resource);
client.print("GET ");
client.print(resource);
client.println(" HTTP/1.0");
client.print("Host: ");
client.println(host);
client.println("Connection: close");
client.println();
return true;
}
// Skip HTTP headers so that we are at the beginning of the response's body
bool skipResponseHeaders() {
// HTTP headers end with an empty line
char endOfHeaders[] = "\r\n\r\n";
client.setTimeout(HTTP_TIMEOUT);
bool ok = client.find(endOfHeaders);
if (!ok) {
Serial.println("No response or invalid response!");
}
return ok;
}
// Parse the JSON from the input string and extract the interesting values
// Here is the JSON we need to parse
// {
// "id": 1,
// "name": "Leanne Graham",
// "username": "Bret",
// "email": "Sincere@april.biz",
// "address": {
// "street": "Kulas Light",
// "suite": "Apt. 556",
// "city": "Gwenborough",
// "zipcode": "92998-3874",
// "geo": {
// "lat": "-37.3159",
// "lng": "81.1496"
// }
// },
// "phone": "1-770-736-8031 x56442",
// "website": "hildegard.org",
// "company": {
// "name": "Romaguera-Crona",
// "catchPhrase": "Multi-layered client-server neural-net",
// "bs": "harness real-time e-markets"
// }
// }
bool readReponseContent(struct UserData* userData) {
// Compute optimal size of the JSON buffer according to what we need to parse.
// See https://bblanchon.github.io/ArduinoJson/assistant/
const size_t BUFFER_SIZE =
JSON_OBJECT_SIZE(8) // the root object has 8 elements
+ JSON_OBJECT_SIZE(5) // the "address" object has 5 elements
+ JSON_OBJECT_SIZE(2) // the "geo" object has 2 elements
+ JSON_OBJECT_SIZE(3) // the "company" object has 3 elements
+ MAX_CONTENT_SIZE; // additional space for strings
// Allocate a temporary memory pool
DynamicJsonBuffer jsonBuffer(BUFFER_SIZE);
JsonObject& root = jsonBuffer.parseObject(client);
if (!root.success()) {
Serial.println("JSON parsing failed!");
return false;
}
// Here were copy the strings we're interested in
strcpy(userData->name, root["name"]);
strcpy(userData->company, root["company"]["name"]);
// It's not mandatory to make a copy, you could just use the pointers
// Since, they are pointing inside the "content" buffer, so you need to make
// sure it's still in memory when you read the string
return true;
}
// Print the data extracted from the JSON
void printUserData(const struct UserData* userData) {
Serial.print("Name = ");
Serial.println(userData->name);
Serial.print("Company = ");
Serial.println(userData->company);
}
// Close the connection with the HTTP server
void disconnect() {
Serial.println("Disconnect");
client.stop();
}
// Pause for a 1 minute
void wait() {
Serial.println("Wait 60 seconds");
delay(60000);
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#include <ArduinoJson.h>
void setup() {
Serial.begin(9600);
while (!Serial) {
// wait serial port initialization
}
// Memory pool for JSON object tree.
//
// Inside the brackets, 200 is the size of the pool in bytes,
// If the JSON object is more complex, you need to increase that value.
// See https://bblanchon.github.io/ArduinoJson/assistant/
StaticJsonBuffer<200> jsonBuffer;
// StaticJsonBuffer allocates memory on the stack, it can be
// replaced by DynamicJsonBuffer which allocates in the heap.
//
// DynamicJsonBuffer jsonBuffer(200);
// JSON input string.
//
// It's better to use a char[] as shown here.
// If you use a const char* or a String, ArduinoJson will
// have to make a copy of the input in the JsonBuffer.
char json[] =
"{\"sensor\":\"gps\",\"time\":1351824120,\"data\":[48.756080,2.302038]}";
// Root of the object tree.
//
// It's a reference to the JsonObject, the actual bytes are inside the
// JsonBuffer with all the other nodes of the object tree.
// Memory is freed when jsonBuffer goes out of scope.
JsonObject& root = jsonBuffer.parseObject(json);
// Test if parsing succeeds.
if (!root.success()) {
Serial.println("parseObject() failed");
return;
}
// Fetch values.
//
// Most of the time, you can rely on the implicit casts.
// In other case, you can do root["time"].as<long>();
const char* sensor = root["sensor"];
long time = root["time"];
double latitude = root["data"][0];
double longitude = root["data"][1];
// Print values.
Serial.println(sensor);
Serial.println(time);
Serial.println(latitude, 6);
Serial.println(longitude, 6);
}
void loop() {
// not used in this example
}

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// Sample Arduino Json Web Server
// Created by Benoit Blanchon.
// Heavily inspired by "Web Server" from David A. Mellis and Tom Igoe
#include <ArduinoJson.h>
#include <Ethernet.h>
#include <SPI.h>
byte mac[] = {0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0xED};
IPAddress ip(192, 168, 0, 177);
EthernetServer server(80);
bool readRequest(EthernetClient& client) {
bool currentLineIsBlank = true;
while (client.connected()) {
if (client.available()) {
char c = client.read();
if (c == '\n' && currentLineIsBlank) {
return true;
} else if (c == '\n') {
currentLineIsBlank = true;
} else if (c != '\r') {
currentLineIsBlank = false;
}
}
}
return false;
}
JsonObject& prepareResponse(JsonBuffer& jsonBuffer) {
JsonObject& root = jsonBuffer.createObject();
JsonArray& analogValues = root.createNestedArray("analog");
for (int pin = 0; pin < 6; pin++) {
int value = analogRead(pin);
analogValues.add(value);
}
JsonArray& digitalValues = root.createNestedArray("digital");
for (int pin = 0; pin < 14; pin++) {
int value = digitalRead(pin);
digitalValues.add(value);
}
return root;
}
void writeResponse(EthernetClient& client, JsonObject& json) {
client.println("HTTP/1.1 200 OK");
client.println("Content-Type: application/json");
client.println("Connection: close");
client.println();
json.prettyPrintTo(client);
}
void setup() {
Ethernet.begin(mac, ip);
server.begin();
}
void loop() {
EthernetClient client = server.available();
if (client) {
bool success = readRequest(client);
if (success) {
// Use https://bblanchon.github.io/ArduinoJson/assistant/ to
// compute the right size for the buffer
StaticJsonBuffer<500> jsonBuffer;
JsonObject& json = prepareResponse(jsonBuffer);
writeResponse(client, json);
}
delay(1);
client.stop();
}
}

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// Send a JSON object on UDP at regular interval
//
// You can easily test this program with netcat:
// $ nc -ulp 8888
//
// by Benoit Blanchon, MIT License 2015-2017
#include <ArduinoJson.h>
#include <Ethernet.h>
#include <SPI.h>
byte mac[] = {0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0xED};
IPAddress localIp(192, 168, 0, 177);
IPAddress remoteIp(192, 168, 0, 109);
unsigned int remotePort = 8888;
unsigned localPort = 8888;
EthernetUDP udp;
JsonObject& buildJson(JsonBuffer& jsonBuffer) {
JsonObject& root = jsonBuffer.createObject();
JsonArray& analogValues = root.createNestedArray("analog");
for (int pin = 0; pin < 6; pin++) {
int value = analogRead(pin);
analogValues.add(value);
}
JsonArray& digitalValues = root.createNestedArray("digital");
for (int pin = 0; pin < 14; pin++) {
int value = digitalRead(pin);
digitalValues.add(value);
}
return root;
}
void sendJson(JsonObject& json) {
udp.beginPacket(remoteIp, remotePort);
json.printTo(udp);
udp.println();
udp.endPacket();
}
void setup() {
Ethernet.begin(mac, localIp);
udp.begin(localPort);
}
void loop() {
delay(1000);
// Use https://bblanchon.github.io/ArduinoJson/assistant/ to
// compute the right size for the buffer
StaticJsonBuffer<300> jsonBuffer;
JsonObject& json = buildJson(jsonBuffer);
sendJson(json);
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#include <ArduinoJson.h>
// About
// -----
// This example shows the different ways you can use PROGMEM with ArduinoJson.
// Please don't see this as an invitation to use PROGMEM.
// On the contrary, you should always use char[] when possible, it's much more
// efficient in term of code size, speed and memory usage.
void setup() {
#ifdef PROGMEM
DynamicJsonBuffer jsonBuffer;
// You can use a Flash String as your JSON input.
// WARNING: the content of the Flash String will be duplicated in the
// JsonBuffer.
JsonObject& root =
jsonBuffer.parseObject(F("{\"sensor\":\"gps\",\"time\":1351824120,"
"\"data\":[48.756080,2.302038]}"));
// You can use a Flash String to get an element of a JsonObject
// No duplication is done.
long time = root[F("time")];
// You can use a Flash String to set an element of a JsonObject
// WARNING: the content of the Flash String will be duplicated in the
// JsonBuffer.
root[F("time")] = time;
// You can set a Flash String to a JsonObject or JsonArray:
// WARNING: the content of the Flash String will be duplicated in the
// JsonBuffer.
root["sensor"] = F("gps");
// You can compare the content of a JsonVariant to a Flash String
if (root["sensor"] == F("gps")) {
// ...
}
#else
#warning PROGMEM is not supported on this platform
#endif
}
void loop() {
// not used in this example
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#include <ArduinoJson.h>
// About
// -----
// This example shows the different ways you can use String with ArduinoJson.
// Please don't see this as an invitation to use String.
// On the contrary, you should always use char[] when possible, it's much more
// efficient in term of code size, speed and memory usage.
void setup() {
DynamicJsonBuffer jsonBuffer;
// You can use a String as your JSON input.
// WARNING: the content of the String will be duplicated in the JsonBuffer.
String input =
"{\"sensor\":\"gps\",\"time\":1351824120,\"data\":[48.756080,2.302038]}";
JsonObject& root = jsonBuffer.parseObject(input);
// You can use a String to get an element of a JsonObject
// No duplication is done.
long time = root[String("time")];
// You can use a String to set an element of a JsonObject
// WARNING: the content of the String will be duplicated in the JsonBuffer.
root[String("time")] = time;
// You can get a String from a JsonObject or JsonArray:
// No duplication is done, at least not in the JsonBuffer.
String sensor = root["sensor"];
// Unfortunately, the following doesn't work (issue #118):
// sensor = root["sensor"]; // <- error "ambiguous overload for 'operator='"
// As a workaround, you need to replace by:
sensor = root["sensor"].as<String>();
// You can set a String to a JsonObject or JsonArray:
// WARNING: the content of the String will be duplicated in the JsonBuffer.
root["sensor"] = sensor;
// You can also concatenate strings
// WARNING: the content of the String will be duplicated in the JsonBuffer.
root[String("sen") + "sor"] = String("gp") + "s";
// You can compare the content of a JsonObject with a String
if (root["sensor"] == sensor) {
// ...
}
// Lastly, you can print the resulting JSON to a String
String output;
root.printTo(output);
}
void loop() {
// not used in this example
}

15
lib/ArduinoJson-5.11.2/keywords.txt
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@ -1,15 +0,0 @@
JsonArray KEYWORD1
JsonObject KEYWORD1
JsonVariant KEYWORD1
StaticJsonBuffer KEYWORD1
DynamicJsonBuffer KEYWORD1
add KEYWORD2
createArray KEYWORD2
createNestedArray KEYWORD2
createNestedObject KEYWORD2
createObject KEYWORD2
parseArray KEYWORD2
parseObject KEYWORD2
prettyPrintTo KEYWORD2
printTo KEYWORD2
success KEYWORD2

9
lib/ArduinoJson-5.11.2/library.properties
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@ -1,9 +0,0 @@
name=ArduinoJson
version=5.11.2
author=Benoit Blanchon <blog.benoitblanchon.fr>
maintainer=Benoit Blanchon <blog.benoitblanchon.fr>
sentence=An efficient and elegant JSON library for Arduino.
paragraph=Like this project? Please star it on GitHub!
category=Data Processing
url=https://bblanchon.github.io/ArduinoJson/
architectures=*

12
lib/ArduinoJson-5.11.2/src/ArduinoJson.h
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@ -1,12 +0,0 @@
// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "ArduinoJson.hpp"
using namespace ArduinoJson;

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lib/ArduinoJson-5.11.2/src/ArduinoJson.hpp
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@ -1,20 +0,0 @@
// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "ArduinoJson/DynamicJsonBuffer.hpp"
#include "ArduinoJson/JsonArray.hpp"
#include "ArduinoJson/JsonObject.hpp"
#include "ArduinoJson/StaticJsonBuffer.hpp"
#include "ArduinoJson/Deserialization/JsonParserImpl.hpp"
#include "ArduinoJson/JsonArrayImpl.hpp"
#include "ArduinoJson/JsonBufferImpl.hpp"
#include "ArduinoJson/JsonObjectImpl.hpp"
#include "ArduinoJson/JsonVariantImpl.hpp"
#include "ArduinoJson/Serialization/JsonSerializerImpl.hpp"

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@ -1,153 +0,0 @@
// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
// Small or big machine?
#ifndef ARDUINOJSON_EMBEDDED_MODE
#if defined(ARDUINO) || defined(__IAR_SYSTEMS_ICC__)
#define ARDUINOJSON_EMBEDDED_MODE 1
#else
#define ARDUINOJSON_EMBEDDED_MODE 0
#endif
#endif
#if ARDUINOJSON_EMBEDDED_MODE
// Store floats by default to reduce the memory usage (issue #134)
#ifndef ARDUINOJSON_USE_DOUBLE
#define ARDUINOJSON_USE_DOUBLE 0
#endif
// Store longs by default, because they usually match the size of a float.
#ifndef ARDUINOJSON_USE_LONG_LONG
#define ARDUINOJSON_USE_LONG_LONG 0
#endif
#ifndef ARDUINOJSON_USE_INT64
#define ARDUINOJSON_USE_INT64 0
#endif
// Embedded systems usually don't have std::string
#ifndef ARDUINOJSON_ENABLE_STD_STRING
#define ARDUINOJSON_ENABLE_STD_STRING 0
#endif
// Embedded systems usually don't have std::stream
#ifndef ARDUINOJSON_ENABLE_STD_STREAM
#define ARDUINOJSON_ENABLE_STD_STREAM 0
#endif
// Limit nesting as the stack is likely to be small
#ifndef ARDUINOJSON_DEFAULT_NESTING_LIMIT
#define ARDUINOJSON_DEFAULT_NESTING_LIMIT 10
#endif
#else // ARDUINOJSON_EMBEDDED_MODE
// On a computer we have plenty of memory so we can use doubles
#ifndef ARDUINOJSON_USE_DOUBLE
#define ARDUINOJSON_USE_DOUBLE 1
#endif
// Use long long when available
#ifndef ARDUINOJSON_USE_LONG_LONG
#if __cplusplus >= 201103L || (defined(_MSC_VER) && _MSC_VER >= 1800)
#define ARDUINOJSON_USE_LONG_LONG 1
#else
#define ARDUINOJSON_USE_LONG_LONG 0
#endif
#endif
// Use _int64 on old versions of Visual Studio
#ifndef ARDUINOJSON_USE_INT64
#if defined(_MSC_VER) && _MSC_VER <= 1700
#define ARDUINOJSON_USE_INT64 1
#else
#define ARDUINOJSON_USE_INT64 0
#endif
#endif
// On a computer, we can use std::string
#ifndef ARDUINOJSON_ENABLE_STD_STRING
#define ARDUINOJSON_ENABLE_STD_STRING 1
#endif
// On a computer, we can assume std::stream
#ifndef ARDUINOJSON_ENABLE_STD_STREAM
#define ARDUINOJSON_ENABLE_STD_STREAM 1
#endif
// On a computer, the stack is large so we can increase nesting limit
#ifndef ARDUINOJSON_DEFAULT_NESTING_LIMIT
#define ARDUINOJSON_DEFAULT_NESTING_LIMIT 50
#endif
#endif // ARDUINOJSON_EMBEDDED_MODE
#ifdef ARDUINO
// Enable support for Arduino String
#ifndef ARDUINOJSON_ENABLE_ARDUINO_STRING
#define ARDUINOJSON_ENABLE_ARDUINO_STRING 1
#endif
// Enable support for Arduino Stream
#ifndef ARDUINOJSON_ENABLE_ARDUINO_STREAM
#define ARDUINOJSON_ENABLE_ARDUINO_STREAM 1
#endif
#else // ARDUINO
// Disable support for Arduino String
#ifndef ARDUINOJSON_ENABLE_ARDUINO_STRING
#define ARDUINOJSON_ENABLE_ARDUINO_STRING 0
#endif
// Disable support for Arduino Stream
#ifndef ARDUINOJSON_ENABLE_ARDUINO_STREAM
#define ARDUINOJSON_ENABLE_ARDUINO_STREAM 0
#endif
#endif // ARDUINO
#ifndef ARDUINOJSON_ENABLE_PROGMEM
#ifdef PROGMEM
#define ARDUINOJSON_ENABLE_PROGMEM 1
#else
#define ARDUINOJSON_ENABLE_PROGMEM 0
#endif
#endif
#ifndef ARDUINOJSON_ENABLE_ALIGNMENT
#ifdef ARDUINO_ARCH_AVR
// alignment isn't needed for 8-bit AVR
#define ARDUINOJSON_ENABLE_ALIGNMENT 0
#else
// but most processors need pointers to be align on word size
#define ARDUINOJSON_ENABLE_ALIGNMENT 1
#endif
#endif
// Enable deprecated functions by default
#ifndef ARDUINOJSON_ENABLE_DEPRECATED
#define ARDUINOJSON_ENABLE_DEPRECATED 1
#endif
// Control the exponentiation threshold for big numbers
// CAUTION: cannot be more that 1e9 !!!!
#ifndef ARDUINOJSON_POSITIVE_EXPONENTIATION_THRESHOLD
#define ARDUINOJSON_POSITIVE_EXPONENTIATION_THRESHOLD 1e7
#endif
// Control the exponentiation threshold for small numbers
#ifndef ARDUINOJSON_NEGATIVE_EXPONENTIATION_THRESHOLD
#define ARDUINOJSON_NEGATIVE_EXPONENTIATION_THRESHOLD 1e-5
#endif
#if ARDUINOJSON_USE_LONG_LONG && ARDUINOJSON_USE_INT64
#error ARDUINOJSON_USE_LONG_LONG and ARDUINOJSON_USE_INT64 cannot be set together
#endif

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@ -1,40 +0,0 @@
// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
namespace ArduinoJson {
namespace Internals {
class Encoding {
public:
// Optimized for code size on a 8-bit AVR
static char escapeChar(char c) {
const char *p = escapeTable(false);
while (p[0] && p[1] != c) {
p += 2;
}
return p[0];
}
// Optimized for code size on a 8-bit AVR
static char unescapeChar(char c) {
const char *p = escapeTable(true);
for (;;) {
if (p[0] == '\0') return c;
if (p[0] == c) return p[1];
p += 2;
}
}
private:
static const char *escapeTable(bool excludeIdenticals) {
return &"\"\"\\\\b\bf\fn\nr\rt\t"[excludeIdenticals ? 4 : 0];
}
};
}
}

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lib/ArduinoJson-5.11.2/src/ArduinoJson/Data/JsonBufferAllocated.hpp
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@ -1,25 +0,0 @@
// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "../JsonBuffer.hpp"
namespace ArduinoJson {
namespace Internals {
class JsonBufferAllocated {
public:
void *operator new(size_t n, JsonBuffer *jsonBuffer) throw() {
if (!jsonBuffer) return NULL;
return jsonBuffer->alloc(n);
}
void operator delete(void *, JsonBuffer *)throw();
};
}
}

21
lib/ArduinoJson-5.11.2/src/ArduinoJson/Data/JsonFloat.hpp
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@ -1,21 +0,0 @@
// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "../Configuration.hpp"
namespace ArduinoJson {
namespace Internals {
#if ARDUINOJSON_USE_DOUBLE
typedef double JsonFloat;
#else
typedef float JsonFloat;
#endif
}
}

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lib/ArduinoJson-5.11.2/src/ArduinoJson/Data/JsonInteger.hpp
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@ -1,26 +0,0 @@
// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "../Configuration.hpp"
namespace ArduinoJson {
namespace Internals {
#if ARDUINOJSON_USE_LONG_LONG
typedef long long JsonInteger;
typedef unsigned long long JsonUInt;
#elif ARDUINOJSON_USE_INT64
typedef __int64 JsonInteger;
typedef unsigned _int64 JsonUInt;
#else
typedef long JsonInteger;
typedef unsigned long JsonUInt;
#endif
}
}

45
lib/ArduinoJson-5.11.2/src/ArduinoJson/Data/JsonVariantAs.hpp
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@ -1,45 +0,0 @@
// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
namespace ArduinoJson {
namespace Internals {
// A metafunction that returns the type of the value returned by
// JsonVariant::as<T>()
template <typename T>
struct JsonVariantAs {
typedef T type;
};
template <>
struct JsonVariantAs<char*> {
typedef const char* type;
};
template <>
struct JsonVariantAs<JsonArray> {
typedef JsonArray& type;
};
template <>
struct JsonVariantAs<const JsonArray> {
typedef const JsonArray& type;
};
template <>
struct JsonVariantAs<JsonObject> {
typedef JsonObject& type;
};
template <>
struct JsonVariantAs<const JsonObject> {
typedef const JsonObject& type;
};
}
}

30
lib/ArduinoJson-5.11.2/src/ArduinoJson/Data/JsonVariantContent.hpp
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@ -1,30 +0,0 @@
// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "JsonFloat.hpp"
#include "JsonInteger.hpp"
namespace ArduinoJson {
// Forward declarations
class JsonArray;
class JsonObject;
namespace Internals {
// A union that defines the actual content of a JsonVariant.
// The enum JsonVariantType determines which member is in use.
union JsonVariantContent {
JsonFloat asFloat; // used for double and float
JsonUInt asInteger; // used for bool, char, short, int and longs
const char* asString; // asString can be null
JsonArray* asArray; // asArray cannot be null
JsonObject* asObject; // asObject cannot be null
};
}
}

26
lib/ArduinoJson-5.11.2/src/ArduinoJson/Data/JsonVariantDefault.hpp
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@ -1,26 +0,0 @@
// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
namespace ArduinoJson {
namespace Internals {
template <typename T>
struct JsonVariantDefault {
static T get() {
return T();
}
};
template <typename T>
struct JsonVariantDefault<const T> : JsonVariantDefault<T> {};
template <typename T>
struct JsonVariantDefault<T&> : JsonVariantDefault<T> {};
}
}

30
lib/ArduinoJson-5.11.2/src/ArduinoJson/Data/JsonVariantType.hpp
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@ -1,30 +0,0 @@
// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
namespace ArduinoJson {
class JsonArray;
class JsonObject;
namespace Internals {
// Enumerated type to know the current type of a JsonVariant.
// The value determines which member of JsonVariantContent is used.
enum JsonVariantType {
JSON_UNDEFINED, // JsonVariant has not been initialized
JSON_UNPARSED, // JsonVariant contains an unparsed string
JSON_STRING, // JsonVariant stores a const char*
JSON_BOOLEAN, // JsonVariant stores a bool
JSON_POSITIVE_INTEGER, // JsonVariant stores an JsonUInt
JSON_NEGATIVE_INTEGER, // JsonVariant stores an JsonUInt that must be negated
JSON_ARRAY, // JsonVariant stores a pointer to a JsonArray
JSON_OBJECT, // JsonVariant stores a pointer to a JsonObject
JSON_FLOAT // JsonVariant stores a JsonFloat
};
}
}

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@ -1,97 +0,0 @@
// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "../JsonBuffer.hpp"
#include "ListConstIterator.hpp"
#include "ListIterator.hpp"
namespace ArduinoJson {
namespace Internals {
// A singly linked list of T.
// The linked list is composed of ListNode<T>.
// It is derived by JsonArray and JsonObject
template <typename T>
class List {
public:
typedef T value_type;
typedef ListNode<T> node_type;
typedef ListIterator<T> iterator;
typedef ListConstIterator<T> const_iterator;
// Creates an empty List<T> attached to a JsonBuffer.
// The JsonBuffer allows to allocate new nodes.
// When buffer is NULL, the List is not able to grow and success() returns
// false. This is used to identify bad memory allocations and parsing
// failures.
explicit List(JsonBuffer *buffer) : _buffer(buffer), _firstNode(NULL) {}
// Returns true if the object is valid
// Would return false in the following situation:
// - the memory allocation failed (StaticJsonBuffer was too small)
// - the JSON parsing failed
bool success() const {
return _buffer != NULL;
}
// Returns the numbers of elements in the list.
// For a JsonObject, it would return the number of key-value pairs
size_t size() const {
size_t nodeCount = 0;
for (node_type *node = _firstNode; node; node = node->next) nodeCount++;
return nodeCount;
}
iterator add() {
node_type *newNode = new (_buffer) node_type();
if (_firstNode) {
node_type *lastNode = _firstNode;
while (lastNode->next) lastNode = lastNode->next;
lastNode->next = newNode;
} else {
_firstNode = newNode;
}
return iterator(newNode);
}
iterator begin() {
return iterator(_firstNode);
}
iterator end() {
return iterator(NULL);
}
const_iterator begin() const {
return const_iterator(_firstNode);
}
const_iterator end() const {
return const_iterator(NULL);
}
void remove(iterator it) {
node_type *nodeToRemove = it._node;
if (!nodeToRemove) return;
if (nodeToRemove == _firstNode) {
_firstNode = nodeToRemove->next;
} else {
for (node_type *node = _firstNode; node; node = node->next)
if (node->next == nodeToRemove) node->next = nodeToRemove->next;
}
}
protected:
JsonBuffer *_buffer;
private:
node_type *_firstNode;
};
}
}

53
lib/ArduinoJson-5.11.2/src/ArduinoJson/Data/ListConstIterator.hpp
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@ -1,53 +0,0 @@
// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "ListNode.hpp"
namespace ArduinoJson {
namespace Internals {
// A read-only forward itertor for List<T>
template <typename T>
class ListConstIterator {
public:
explicit ListConstIterator(const ListNode<T> *node = NULL) : _node(node) {}
const T &operator*() const {
return _node->content;
}
const T *operator->() {
return &_node->content;
}
bool operator==(const ListConstIterator<T> &other) const {
return _node == other._node;
}
bool operator!=(const ListConstIterator<T> &other) const {
return _node != other._node;
}
ListConstIterator<T> &operator++() {
if (_node) _node = _node->next;
return *this;
}
ListConstIterator<T> &operator+=(size_t distance) {
while (_node && distance) {
_node = _node->next;
--distance;
}
return *this;
}
private:
const ListNode<T> *_node;
};
}
}

63
lib/ArduinoJson-5.11.2/src/ArduinoJson/Data/ListIterator.hpp
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@ -1,63 +0,0 @@
// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "ListConstIterator.hpp"
#include "ListNode.hpp"
namespace ArduinoJson {
namespace Internals {
template <typename T>
class List;
// A read-write forward iterator for List<T>
template <typename T>
class ListIterator {
friend class List<T>;
public:
explicit ListIterator(ListNode<T> *node = NULL) : _node(node) {}
T &operator*() const {
return _node->content;
}
T *operator->() {
return &_node->content;
}
bool operator==(const ListIterator<T> &other) const {
return _node == other._node;
}
bool operator!=(const ListIterator<T> &other) const {
return _node != other._node;
}
ListIterator<T> &operator++() {
if (_node) _node = _node->next;
return *this;
}
ListIterator<T> &operator+=(size_t distance) {
while (_node && distance) {
_node = _node->next;
--distance;
}
return *this;
}
operator ListConstIterator<T>() const {
return ListConstIterator<T>(_node);
}
private:
ListNode<T> *_node;
};
}
}

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@ -1,27 +0,0 @@
// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include <stddef.h> // for NULL
#include "JsonBufferAllocated.hpp"
namespace ArduinoJson {
namespace Internals {
// A node for a singly-linked list.
// Used by List<T> and its iterators.
template <typename T>
struct ListNode : public Internals::JsonBufferAllocated {
ListNode() throw() : next(NULL) {}
ListNode<T> *next;
T content;
};
}
}

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lib/ArduinoJson-5.11.2/src/ArduinoJson/Data/NonCopyable.hpp
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@ -1,26 +0,0 @@
// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
namespace ArduinoJson {
namespace Internals {
// A type that cannot be copied
class NonCopyable {
protected:
NonCopyable() {}
private:
// copy constructor is private
NonCopyable(const NonCopyable&);
// copy operator is private
NonCopyable& operator=(const NonCopyable&);
};
}
}

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lib/ArduinoJson-5.11.2/src/ArduinoJson/Data/ReferenceType.hpp
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@ -1,27 +0,0 @@
// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
namespace ArduinoJson {
namespace Internals {
// A type that is meant to be used by reference only (JsonArray and JsonObject)
class ReferenceType {
public:
bool operator==(const ReferenceType& other) const {
// two JsonArray are equal if they are the same instance
// (we don't compare the content)
return this == &other;
}
bool operator!=(const ReferenceType& other) const {
return this != &other;
}
};
}
}

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lib/ArduinoJson-5.11.2/src/ArduinoJson/Data/ValueSetter.hpp
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@ -1,51 +0,0 @@
// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "../JsonBuffer.hpp"
#include "../JsonVariant.hpp"
#include "../StringTraits/StringTraits.hpp"
#include "../TypeTraits/EnableIf.hpp"
namespace ArduinoJson {
namespace Internals {
template <typename TSourceRef, typename Enable = void>
struct ValueSetter {
template <typename TDestination>
static bool set(JsonBuffer*, TDestination& destination, TSourceRef source) {
destination = source;
return true;
}
};
template <typename TSourceRef>
struct ValueSetter<TSourceRef, typename TypeTraits::EnableIf<StringTraits<
TSourceRef>::should_duplicate>::type> {
template <typename TDestination>
static bool set(JsonBuffer* buffer, TDestination& destination,
TSourceRef source) {
const char* copy = buffer->strdup(source);
if (!copy) return false;
destination = copy;
return true;
}
};
template <typename TSourceRef>
struct ValueSetter<TSourceRef, typename TypeTraits::EnableIf<!StringTraits<
TSourceRef>::should_duplicate>::type> {
template <typename TDestination>
static bool set(JsonBuffer*, TDestination& destination, TSourceRef source) {
// unsigned char* -> char*
destination = reinterpret_cast<const char*>(source);
return true;
}
};
}
}

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lib/ArduinoJson-5.11.2/src/ArduinoJson/Deserialization/Comments.hpp
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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
namespace ArduinoJson {
namespace Internals {
template <typename TInput>
void skipSpacesAndComments(TInput& input) {
for (;;) {
switch (input.current()) {
// spaces
case ' ':
case '\t':
case '\r':
case '\n':
input.move();
continue;
// comments
case '/':
switch (input.next()) {
// C-style block comment
case '*':
input.move(); // skip '/'
// no need to skip '*'
for (;;) {
input.move();
if (input.current() == '\0') return;
if (input.current() == '*' && input.next() == '/') {
input.move(); // skip '*'
input.move(); // skip '/'
break;
}
}
break;
// C++-style line comment
case '/':
// not need to skip "//"
for (;;) {
input.move();
if (input.current() == '\0') return;
if (input.current() == '\n') break;
}
break;
// not a comment, just a '/'
default:
return;
}
break;
default:
return;
}
}
}
}
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "../JsonBuffer.hpp"
#include "../JsonVariant.hpp"
#include "../TypeTraits/IsConst.hpp"
#include "StringWriter.hpp"
namespace ArduinoJson {
namespace Internals {
// Parse JSON string to create JsonArrays and JsonObjects
// This internal class is not indended to be used directly.
// Instead, use JsonBuffer.parseArray() or .parseObject()
template <typename TReader, typename TWriter>
class JsonParser {
public:
JsonParser(JsonBuffer *buffer, TReader reader, TWriter writer,
uint8_t nestingLimit)
: _buffer(buffer),
_reader(reader),
_writer(writer),
_nestingLimit(nestingLimit) {}
JsonArray &parseArray();
JsonObject &parseObject();
JsonVariant parseVariant() {
JsonVariant result;
parseAnythingTo(&result);
return result;
}
private:
JsonParser &operator=(const JsonParser &); // non-copiable
static bool eat(TReader &, char charToSkip);
FORCE_INLINE bool eat(char charToSkip) {
return eat(_reader, charToSkip);
}
const char *parseString();
bool parseAnythingTo(JsonVariant *destination);
FORCE_INLINE bool parseAnythingToUnsafe(JsonVariant *destination);
inline bool parseArrayTo(JsonVariant *destination);
inline bool parseObjectTo(JsonVariant *destination);
inline bool parseStringTo(JsonVariant *destination);
static inline bool isInRange(char c, char min, char max) {
return min <= c && c <= max;
}
static inline bool isLetterOrNumber(char c) {
return isInRange(c, '0', '9') || isInRange(c, 'a', 'z') ||
isInRange(c, 'A', 'Z') || c == '+' || c == '-' || c == '.';
}
static inline bool isQuote(char c) {
return c == '\'' || c == '\"';
}
JsonBuffer *_buffer;
TReader _reader;
TWriter _writer;
uint8_t _nestingLimit;
};
template <typename TJsonBuffer, typename TString, typename Enable = void>
struct JsonParserBuilder {
typedef typename Internals::StringTraits<TString>::Reader InputReader;
typedef JsonParser<InputReader, TJsonBuffer &> TParser;
static TParser makeParser(TJsonBuffer *buffer, TString &json,
uint8_t nestingLimit) {
return TParser(buffer, InputReader(json), *buffer, nestingLimit);
}
};
template <typename TJsonBuffer, typename TChar>
struct JsonParserBuilder<
TJsonBuffer, TChar *,
typename TypeTraits::EnableIf<!TypeTraits::IsConst<TChar>::value>::type> {
typedef typename Internals::StringTraits<TChar *>::Reader TReader;
typedef StringWriter<TChar> TWriter;
typedef JsonParser<TReader, TWriter> TParser;
static TParser makeParser(TJsonBuffer *buffer, TChar *json,
uint8_t nestingLimit) {
return TParser(buffer, TReader(json), TWriter(json), nestingLimit);
}
};
template <typename TJsonBuffer, typename TString>
inline typename JsonParserBuilder<TJsonBuffer, TString>::TParser makeParser(
TJsonBuffer *buffer, TString &json, uint8_t nestingLimit) {
return JsonParserBuilder<TJsonBuffer, TString>::makeParser(buffer, json,
nestingLimit);
}
}
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "Comments.hpp"
#include "JsonParser.hpp"
template <typename TReader, typename TWriter>
inline bool ArduinoJson::Internals::JsonParser<TReader, TWriter>::eat(
TReader &reader, char charToSkip) {
skipSpacesAndComments(reader);
if (reader.current() != charToSkip) return false;
reader.move();
return true;
}
template <typename TReader, typename TWriter>
inline bool ArduinoJson::Internals::JsonParser<
TReader, TWriter>::parseAnythingTo(JsonVariant *destination) {
if (_nestingLimit == 0) return false;
_nestingLimit--;
bool success = parseAnythingToUnsafe(destination);
_nestingLimit++;
return success;
}
template <typename TReader, typename TWriter>
inline bool ArduinoJson::Internals::JsonParser<
TReader, TWriter>::parseAnythingToUnsafe(JsonVariant *destination) {
skipSpacesAndComments(_reader);
switch (_reader.current()) {
case '[':
return parseArrayTo(destination);
case '{':
return parseObjectTo(destination);
default:
return parseStringTo(destination);
}
}
template <typename TReader, typename TWriter>
inline ArduinoJson::JsonArray &
ArduinoJson::Internals::JsonParser<TReader, TWriter>::parseArray() {
// Create an empty array
JsonArray &array = _buffer->createArray();
// Check opening braket
if (!eat('[')) goto ERROR_MISSING_BRACKET;
if (eat(']')) goto SUCCESS_EMPTY_ARRAY;
// Read each value
for (;;) {
// 1 - Parse value
JsonVariant value;
if (!parseAnythingTo(&value)) goto ERROR_INVALID_VALUE;
if (!array.add(value)) goto ERROR_NO_MEMORY;
// 2 - More values?
if (eat(']')) goto SUCCES_NON_EMPTY_ARRAY;
if (!eat(',')) goto ERROR_MISSING_COMMA;
}
SUCCESS_EMPTY_ARRAY:
SUCCES_NON_EMPTY_ARRAY:
return array;
ERROR_INVALID_VALUE:
ERROR_MISSING_BRACKET:
ERROR_MISSING_COMMA:
ERROR_NO_MEMORY:
return JsonArray::invalid();
}
template <typename TReader, typename TWriter>
inline bool ArduinoJson::Internals::JsonParser<TReader, TWriter>::parseArrayTo(
JsonVariant *destination) {
JsonArray &array = parseArray();
if (!array.success()) return false;
*destination = array;
return true;
}
template <typename TReader, typename TWriter>
inline ArduinoJson::JsonObject &
ArduinoJson::Internals::JsonParser<TReader, TWriter>::parseObject() {
// Create an empty object
JsonObject &object = _buffer->createObject();
// Check opening brace
if (!eat('{')) goto ERROR_MISSING_BRACE;
if (eat('}')) goto SUCCESS_EMPTY_OBJECT;
// Read each key value pair
for (;;) {
// 1 - Parse key
const char *key = parseString();
if (!key) goto ERROR_INVALID_KEY;
if (!eat(':')) goto ERROR_MISSING_COLON;
// 2 - Parse value
JsonVariant value;
if (!parseAnythingTo(&value)) goto ERROR_INVALID_VALUE;
if (!object.set(key, value)) goto ERROR_NO_MEMORY;
// 3 - More keys/values?
if (eat('}')) goto SUCCESS_NON_EMPTY_OBJECT;
if (!eat(',')) goto ERROR_MISSING_COMMA;
}
SUCCESS_EMPTY_OBJECT:
SUCCESS_NON_EMPTY_OBJECT:
return object;
ERROR_INVALID_KEY:
ERROR_INVALID_VALUE:
ERROR_MISSING_BRACE:
ERROR_MISSING_COLON:
ERROR_MISSING_COMMA:
ERROR_NO_MEMORY:
return JsonObject::invalid();
}
template <typename TReader, typename TWriter>
inline bool ArduinoJson::Internals::JsonParser<TReader, TWriter>::parseObjectTo(
JsonVariant *destination) {
JsonObject &object = parseObject();
if (!object.success()) return false;
*destination = object;
return true;
}
template <typename TReader, typename TWriter>
inline const char *
ArduinoJson::Internals::JsonParser<TReader, TWriter>::parseString() {
typename TypeTraits::RemoveReference<TWriter>::type::String str =
_writer.startString();
skipSpacesAndComments(_reader);
char c = _reader.current();
if (isQuote(c)) { // quotes
_reader.move();
char stopChar = c;
for (;;) {
c = _reader.current();
if (c == '\0') break;
_reader.move();
if (c == stopChar) break;
if (c == '\\') {
// replace char
c = Encoding::unescapeChar(_reader.current());
if (c == '\0') break;
_reader.move();
}
str.append(c);
}
} else { // no quotes
for (;;) {
if (!isLetterOrNumber(c)) break;
_reader.move();
str.append(c);
c = _reader.current();
}
}
return str.c_str();
}
template <typename TReader, typename TWriter>
inline bool ArduinoJson::Internals::JsonParser<TReader, TWriter>::parseStringTo(
JsonVariant *destination) {
bool hasQuotes = isQuote(_reader.current());
const char *value = parseString();
if (value == NULL) return false;
if (hasQuotes) {
*destination = value;
} else {
*destination = RawJson(value);
}
return true;
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
namespace ArduinoJson {
namespace Internals {
template <typename TChar>
class StringWriter {
public:
class String {
public:
String(TChar** ptr) : _writePtr(ptr), _startPtr(*ptr) {}
void append(char c) {
*(*_writePtr)++ = TChar(c);
}
const char* c_str() const {
*(*_writePtr)++ = 0;
return reinterpret_cast<const char*>(_startPtr);
}
private:
TChar** _writePtr;
TChar* _startPtr;
};
StringWriter(TChar* buffer) : _ptr(buffer) {}
String startString() {
return String(&_ptr);
}
private:
TChar* _ptr;
};
}
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "JsonBufferBase.hpp"
#include <stdlib.h>
#if defined(__clang__)
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wnon-virtual-dtor"
#elif defined(__GNUC__)
#if __GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 6)
#pragma GCC diagnostic push
#endif
#pragma GCC diagnostic ignored "-Wnon-virtual-dtor"
#endif
namespace ArduinoJson {
class DefaultAllocator {
public:
void* allocate(size_t size) {
return malloc(size);
}
void deallocate(void* pointer) {
free(pointer);
}
};
template <typename TAllocator>
class DynamicJsonBufferBase
: public JsonBufferBase<DynamicJsonBufferBase<TAllocator> > {
struct Block;
struct EmptyBlock {
Block* next;
size_t capacity;
size_t size;
};
struct Block : EmptyBlock {
uint8_t data[1];
};
public:
enum { EmptyBlockSize = sizeof(EmptyBlock) };
DynamicJsonBufferBase(size_t initialSize = 256)
: _head(NULL), _nextBlockCapacity(initialSize) {}
~DynamicJsonBufferBase() {
clear();
}
// Gets the number of bytes occupied in the buffer
size_t size() const {
size_t total = 0;
for (const Block* b = _head; b; b = b->next) total += b->size;
return total;
}
// Allocates the specified amount of bytes in the buffer
virtual void* alloc(size_t bytes) {
alignNextAlloc();
return canAllocInHead(bytes) ? allocInHead(bytes) : allocInNewBlock(bytes);
}
// Resets the buffer.
// USE WITH CAUTION: this invalidates all previously allocated data
void clear() {
Block* currentBlock = _head;
while (currentBlock != NULL) {
_nextBlockCapacity = currentBlock->capacity;
Block* nextBlock = currentBlock->next;
_allocator.deallocate(currentBlock);
currentBlock = nextBlock;
}
_head = 0;
}
class String {
public:
String(DynamicJsonBufferBase* parent)
: _parent(parent), _start(NULL), _length(0) {}
void append(char c) {
if (_parent->canAllocInHead(1)) {
char* end = static_cast<char*>(_parent->allocInHead(1));
*end = c;
if (_length == 0) _start = end;
} else {
char* newStart =
static_cast<char*>(_parent->allocInNewBlock(_length + 1));
if (_start && newStart) memcpy(newStart, _start, _length);
if (newStart) newStart[_length] = c;
_start = newStart;
}
_length++;
}
const char* c_str() {
append(0);
return _start;
}
private:
DynamicJsonBufferBase* _parent;
char* _start;
size_t _length;
};
String startString() {
return String(this);
}
private:
void alignNextAlloc() {
if (_head) _head->size = this->round_size_up(_head->size);
}
bool canAllocInHead(size_t bytes) const {
return _head != NULL && _head->size + bytes <= _head->capacity;
}
void* allocInHead(size_t bytes) {
void* p = _head->data + _head->size;
_head->size += bytes;
return p;
}
void* allocInNewBlock(size_t bytes) {
size_t capacity = _nextBlockCapacity;
if (bytes > capacity) capacity = bytes;
if (!addNewBlock(capacity)) return NULL;
_nextBlockCapacity *= 2;
return allocInHead(bytes);
}
bool addNewBlock(size_t capacity) {
size_t bytes = EmptyBlockSize + capacity;
Block* block = static_cast<Block*>(_allocator.allocate(bytes));
if (block == NULL) return false;
block->capacity = capacity;
block->size = 0;
block->next = _head;
_head = block;
return true;
}
TAllocator _allocator;
Block* _head;
size_t _nextBlockCapacity;
};
#if defined(__clang__)
#pragma clang diagnostic pop
#elif defined(__GNUC__)
#if __GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 6)
#pragma GCC diagnostic pop
#endif
#endif
// Implements a JsonBuffer with dynamic memory allocation.
// You are strongly encouraged to consider using StaticJsonBuffer which is much
// more suitable for embedded systems.
typedef DynamicJsonBufferBase<DefaultAllocator> DynamicJsonBuffer;
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "Data/JsonBufferAllocated.hpp"
#include "Data/List.hpp"
#include "Data/ReferenceType.hpp"
#include "Data/ValueSetter.hpp"
#include "JsonVariant.hpp"
#include "Serialization/JsonPrintable.hpp"
#include "StringTraits/StringTraits.hpp"
#include "TypeTraits/EnableIf.hpp"
#include "TypeTraits/IsArray.hpp"
#include "TypeTraits/IsFloatingPoint.hpp"
#include "TypeTraits/IsSame.hpp"
// Returns the size (in bytes) of an array with n elements.
// Can be very handy to determine the size of a StaticJsonBuffer.
#define JSON_ARRAY_SIZE(NUMBER_OF_ELEMENTS) \
(sizeof(JsonArray) + (NUMBER_OF_ELEMENTS) * sizeof(JsonArray::node_type))
namespace ArduinoJson {
// Forward declarations
class JsonObject;
class JsonBuffer;
class JsonArraySubscript;
// An array of JsonVariant.
//
// The constructor is private, instances must be created via
// JsonBuffer::createArray() or JsonBuffer::parseArray().
// A JsonArray can be serialized to a JSON string via JsonArray::printTo().
// It can also be deserialized from a JSON string via JsonBuffer::parseArray().
class JsonArray : public Internals::JsonPrintable<JsonArray>,
public Internals::ReferenceType,
public Internals::NonCopyable,
public Internals::List<JsonVariant>,
public Internals::JsonBufferAllocated {
public:
// Create an empty JsonArray attached to the specified JsonBuffer.
// You should not call this constructor directly.
// Instead, use JsonBuffer::createArray() or JsonBuffer::parseArray().
explicit JsonArray(JsonBuffer *buffer) throw()
: Internals::List<JsonVariant>(buffer) {}
// Gets the value at the specified index
const JsonArraySubscript operator[](size_t index) const;
// Gets or sets the value at specified index
JsonArraySubscript operator[](size_t index);
// Adds the specified value at the end of the array.
//
// bool add(TValue);
// TValue = bool, long, int, short, float, double, RawJson, JsonVariant,
// const std::string&, const String&,
// const JsonArray&, const JsonObject&
template <typename T>
typename TypeTraits::EnableIf<!TypeTraits::IsArray<T>::value, bool>::type add(
const T &value) {
return add_impl<const T &>(value);
}
//
// bool add(TValue);
// TValue = const char*, const char[N], const FlashStringHelper*
template <typename T>
bool add(const T *value) {
return add_impl<const T *>(value);
}
//
// bool add(TValue value, uint8_t decimals);
// TValue = float, double
template <typename T>
DEPRECATED("Second argument is not supported anymore")
bool add(T value, uint8_t) {
return add_impl<const JsonVariant &>(JsonVariant(value));
}
// Sets the value at specified index.
//
// bool add(size_t index, TValue);
// TValue = bool, long, int, short, float, double, RawJson, JsonVariant,
// const std::string&, const String&,
// const JsonArray&, const JsonObject&
template <typename T>
typename TypeTraits::EnableIf<!TypeTraits::IsArray<T>::value, bool>::type set(
size_t index, const T &value) {
return set_impl<const T &>(index, value);
}
//
// bool add(size_t index, TValue);
// TValue = const char*, const char[N], const FlashStringHelper*
template <typename T>
bool set(size_t index, const T *value) {
return set_impl<const T *>(index, value);
}
//
// bool set(size_t index, TValue value, uint8_t decimals);
// TValue = float, double
template <typename T>
typename TypeTraits::EnableIf<TypeTraits::IsFloatingPoint<T>::value,
bool>::type
set(size_t index, T value, uint8_t decimals) {
return set_impl<const JsonVariant &>(index, JsonVariant(value, decimals));
}
// Gets the value at the specified index.
template <typename T>
typename Internals::JsonVariantAs<T>::type get(size_t index) const {
const_iterator it = begin() += index;
return it != end() ? it->as<T>() : Internals::JsonVariantDefault<T>::get();
}
// Check the type of the value at specified index.
template <typename T>
bool is(size_t index) const {
const_iterator it = begin() += index;
return it != end() ? it->is<T>() : false;
}
// Creates a JsonArray and adds a reference at the end of the array.
// It's a shortcut for JsonBuffer::createArray() and JsonArray::add()
JsonArray &createNestedArray();
// Creates a JsonObject and adds a reference at the end of the array.
// It's a shortcut for JsonBuffer::createObject() and JsonArray::add()
JsonObject &createNestedObject();
// Removes element at specified index.
void remove(size_t index) {
remove(begin() += index);
}
using Internals::List<JsonVariant>::remove;
// Returns a reference an invalid JsonArray.
// This object is meant to replace a NULL pointer.
// This is used when memory allocation or JSON parsing fail.
static JsonArray &invalid() {
static JsonArray instance(NULL);
return instance;
}
// Imports a 1D array
template <typename T, size_t N>
bool copyFrom(T (&array)[N]) {
return copyFrom(array, N);
}
// Imports a 1D array
template <typename T>
bool copyFrom(T *array, size_t len) {
bool ok = true;
for (size_t i = 0; i < len; i++) {
ok &= add(array[i]);
}
return ok;
}
// Imports a 2D array
template <typename T, size_t N1, size_t N2>
bool copyFrom(T (&array)[N1][N2]) {
bool ok = true;
for (size_t i = 0; i < N1; i++) {
JsonArray &nestedArray = createNestedArray();
for (size_t j = 0; j < N2; j++) {
ok &= nestedArray.add(array[i][j]);
}
}
return ok;
}
// Exports a 1D array
template <typename T, size_t N>
size_t copyTo(T (&array)[N]) const {
return copyTo(array, N);
}
// Exports a 1D array
template <typename T>
size_t copyTo(T *array, size_t len) const {
size_t i = 0;
for (const_iterator it = begin(); it != end() && i < len; ++it)
array[i++] = *it;
return i;
}
// Exports a 2D array
template <typename T, size_t N1, size_t N2>
void copyTo(T (&array)[N1][N2]) const {
size_t i = 0;
for (const_iterator it = begin(); it != end() && i < N1; ++it) {
it->as<JsonArray>().copyTo(array[i++]);
}
}
#if ARDUINOJSON_ENABLE_DEPRECATED
DEPRECATED("use remove() instead")
FORCE_INLINE void removeAt(size_t index) {
return remove(index);
}
#endif
private:
template <typename TValueRef>
bool set_impl(size_t index, TValueRef value) {
iterator it = begin() += index;
if (it == end()) return false;
return Internals::ValueSetter<TValueRef>::set(_buffer, *it, value);
}
template <typename TValueRef>
bool add_impl(TValueRef value) {
iterator it = Internals::List<JsonVariant>::add();
if (it == end()) return false;
return Internals::ValueSetter<TValueRef>::set(_buffer, *it, value);
}
};
namespace Internals {
template <>
struct JsonVariantDefault<JsonArray> {
static JsonArray &get() {
return JsonArray::invalid();
}
};
}
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "JsonArray.hpp"
#include "JsonArraySubscript.hpp"
#include "JsonObject.hpp"
namespace ArduinoJson {
inline JsonArray &JsonArray::createNestedArray() {
if (!_buffer) return JsonArray::invalid();
JsonArray &array = _buffer->createArray();
add(array);
return array;
}
inline JsonObject &JsonArray::createNestedObject() {
if (!_buffer) return JsonObject::invalid();
JsonObject &object = _buffer->createObject();
add(object);
return object;
}
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "Configuration.hpp"
#include "JsonVariantBase.hpp"
#ifdef _MSC_VER
#pragma warning(push)
#pragma warning(disable : 4522)
#endif
namespace ArduinoJson {
class JsonArraySubscript : public JsonVariantBase<JsonArraySubscript> {
public:
FORCE_INLINE JsonArraySubscript(JsonArray& array, size_t index)
: _array(array), _index(index) {}
FORCE_INLINE JsonArraySubscript& operator=(const JsonArraySubscript& src) {
_array.set(_index, src);
return *this;
}
// Replaces the value
//
// operator=(TValue)
// TValue = bool, long, int, short, float, double, RawJson, JsonVariant,
// const std::string&, const String&,
// const JsonArray&, const JsonObject&
template <typename T>
FORCE_INLINE JsonArraySubscript& operator=(const T& src) {
_array.set(_index, src);
return *this;
}
//
// operator=(TValue)
// TValue = const char*, const char[N], const FlashStringHelper*
template <typename T>
FORCE_INLINE JsonArraySubscript& operator=(const T* src) {
_array.set(_index, src);
return *this;
}
FORCE_INLINE bool success() const {
return _index < _array.size();
}
template <typename T>
FORCE_INLINE typename Internals::JsonVariantAs<T>::type as() const {
return _array.get<T>(_index);
}
template <typename T>
FORCE_INLINE bool is() const {
return _array.is<T>(_index);
}
// Replaces the value
//
// bool set(TValue)
// TValue = bool, long, int, short, float, double, RawJson, JsonVariant,
// const std::string&, const String&,
// const JsonArray&, const JsonObject&
template <typename TValue>
FORCE_INLINE bool set(const TValue& value) {
return _array.set(_index, value);
}
//
// bool set(TValue)
// TValue = const char*, const char[N], const FlashStringHelper*
template <typename TValue>
FORCE_INLINE bool set(const TValue* value) {
return _array.set(_index, value);
}
//
// bool set(TValue, uint8_t decimals);
// TValue = float, double
template <typename TValue>
DEPRECATED("Second argument is not supported anymore")
FORCE_INLINE bool set(const TValue& value, uint8_t) {
return _array.set(_index, value);
}
private:
JsonArray& _array;
const size_t _index;
};
#if ARDUINOJSON_ENABLE_STD_STREAM
inline std::ostream& operator<<(std::ostream& os,
const JsonArraySubscript& source) {
return source.printTo(os);
}
#endif
inline JsonArraySubscript JsonArray::operator[](size_t index) {
return JsonArraySubscript(*this, index);
}
inline const JsonArraySubscript JsonArray::operator[](size_t index) const {
return JsonArraySubscript(*const_cast<JsonArray*>(this), index);
}
template <typename TImpl>
inline JsonArraySubscript JsonVariantSubscripts<TImpl>::operator[](
size_t index) {
return impl()->template as<JsonArray>()[index];
}
template <typename TImpl>
inline const JsonArraySubscript JsonVariantSubscripts<TImpl>::operator[](
size_t index) const {
return impl()->template as<JsonArray>()[index];
}
} // namespace ArduinoJson
#ifdef _MSC_VER
#pragma warning(pop)
#endif

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include <stddef.h> // for size_t
#include <stdint.h> // for uint8_t
#include <string.h>
#include "Data/NonCopyable.hpp"
#include "JsonVariant.hpp"
#include "TypeTraits/EnableIf.hpp"
#include "TypeTraits/IsArray.hpp"
namespace ArduinoJson {
class JsonArray;
class JsonObject;
// Entry point for using the library.
//
// Handle the memory management (done in derived classes) and calls the parser.
// This abstract class is implemented by StaticJsonBuffer which implements a
// fixed memory allocation.
class JsonBuffer : Internals::NonCopyable {
public:
// Allocates an empty JsonArray.
//
// Returns a reference to the new JsonArray or JsonArray::invalid() if the
// allocation fails.
JsonArray &createArray();
// Allocates an empty JsonObject.
//
// Returns a reference to the new JsonObject or JsonObject::invalid() if the
// allocation fails.
JsonObject &createObject();
// Duplicates a string
//
// char* strdup(TValue);
// TValue = const std::string&, const String&,
template <typename TString>
typename TypeTraits::EnableIf<!TypeTraits::IsArray<TString>::value,
char *>::type
strdup(const TString &src) {
return Internals::StringTraits<TString>::duplicate(src, this);
}
//
// char* strdup(TValue);
// TValue = const char*, const char[N], const FlashStringHelper*
template <typename TString>
char *strdup(const TString *src) {
return Internals::StringTraits<const TString *>::duplicate(src, this);
}
// Allocates n bytes in the JsonBuffer.
// Return a pointer to the allocated memory or NULL if allocation fails.
virtual void *alloc(size_t size) = 0;
protected:
// CAUTION: NO VIRTUAL DESTRUCTOR!
// If we add a virtual constructor the Arduino compiler will add malloc()
// and free() to the binary, adding 706 useless bytes.
~JsonBuffer() {}
// Preserve aligment if necessary
static FORCE_INLINE size_t round_size_up(size_t bytes) {
#if ARDUINOJSON_ENABLE_ALIGNMENT
const size_t x = sizeof(void *) - 1;
return (bytes + x) & ~x;
#else
return bytes;
#endif
}
};
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "Deserialization/JsonParser.hpp"
namespace ArduinoJson {
template <typename TDerived>
class JsonBufferBase : public JsonBuffer {
public:
// Allocates and populate a JsonArray from a JSON string.
//
// The First argument is a pointer to the JSON string, the memory must be
// writable
// because the parser will insert null-terminators and replace escaped chars.
//
// The second argument set the nesting limit
//
// Returns a reference to the new JsonObject or JsonObject::invalid() if the
// allocation fails.
// With this overload, the JsonBuffer will make a copy of the string
//
// JsonArray& parseArray(TString);
// TString = const std::string&, const String&
template <typename TString>
typename TypeTraits::EnableIf<!TypeTraits::IsArray<TString>::value,
JsonArray &>::type
parseArray(const TString &json,
uint8_t nestingLimit = ARDUINOJSON_DEFAULT_NESTING_LIMIT) {
return Internals::makeParser(that(), json, nestingLimit).parseArray();
}
//
// JsonArray& parseArray(TString);
// TString = const char*, const char[N], const FlashStringHelper*
template <typename TString>
JsonArray &parseArray(
TString *json, uint8_t nestingLimit = ARDUINOJSON_DEFAULT_NESTING_LIMIT) {
return Internals::makeParser(that(), json, nestingLimit).parseArray();
}
//
// JsonArray& parseArray(TString);
// TString = std::istream&, Stream&
template <typename TString>
JsonArray &parseArray(
TString &json, uint8_t nestingLimit = ARDUINOJSON_DEFAULT_NESTING_LIMIT) {
return Internals::makeParser(that(), json, nestingLimit).parseArray();
}
// Allocates and populate a JsonObject from a JSON string.
//
// The First argument is a pointer to the JSON string, the memory must be
// writable
// because the parser will insert null-terminators and replace escaped chars.
//
// The second argument set the nesting limit
//
// Returns a reference to the new JsonObject or JsonObject::invalid() if the
// allocation fails.
//
// JsonObject& parseObject(TString);
// TString = const std::string&, const String&
template <typename TString>
typename TypeTraits::EnableIf<!TypeTraits::IsArray<TString>::value,
JsonObject &>::type
parseObject(const TString &json,
uint8_t nestingLimit = ARDUINOJSON_DEFAULT_NESTING_LIMIT) {
return Internals::makeParser(that(), json, nestingLimit).parseObject();
}
//
// JsonObject& parseObject(TString);
// TString = const char*, const char[N], const FlashStringHelper*
template <typename TString>
JsonObject &parseObject(
TString *json, uint8_t nestingLimit = ARDUINOJSON_DEFAULT_NESTING_LIMIT) {
return Internals::makeParser(that(), json, nestingLimit).parseObject();
}
//
// JsonObject& parseObject(TString);
// TString = std::istream&, Stream&
template <typename TString>
JsonObject &parseObject(
TString &json, uint8_t nestingLimit = ARDUINOJSON_DEFAULT_NESTING_LIMIT) {
return Internals::makeParser(that(), json, nestingLimit).parseObject();
}
// Generalized version of parseArray() and parseObject(), also works for
// integral types.
//
// JsonVariant parse(TString);
// TString = const std::string&, const String&
template <typename TString>
typename TypeTraits::EnableIf<!TypeTraits::IsArray<TString>::value,
JsonVariant>::type
parse(const TString &json,
uint8_t nestingLimit = ARDUINOJSON_DEFAULT_NESTING_LIMIT) {
return Internals::makeParser(that(), json, nestingLimit).parseVariant();
}
//
// JsonVariant parse(TString);
// TString = const char*, const char[N], const FlashStringHelper*
template <typename TString>
JsonVariant parse(TString *json,
uint8_t nestingLimit = ARDUINOJSON_DEFAULT_NESTING_LIMIT) {
return Internals::makeParser(that(), json, nestingLimit).parseVariant();
}
//
// JsonVariant parse(TString);
// TString = std::istream&, Stream&
template <typename TString>
JsonVariant parse(TString &json,
uint8_t nestingLimit = ARDUINOJSON_DEFAULT_NESTING_LIMIT) {
return Internals::makeParser(that(), json, nestingLimit).parseVariant();
}
protected:
~JsonBufferBase() {}
private:
TDerived *that() {
return static_cast<TDerived *>(this);
}
};
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "Deserialization/JsonParser.hpp"
inline ArduinoJson::JsonArray &ArduinoJson::JsonBuffer::createArray() {
JsonArray *ptr = new (this) JsonArray(this);
return ptr ? *ptr : JsonArray::invalid();
}
inline ArduinoJson::JsonObject &ArduinoJson::JsonBuffer::createObject() {
JsonObject *ptr = new (this) JsonObject(this);
return ptr ? *ptr : JsonObject::invalid();
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "Data/JsonBufferAllocated.hpp"
#include "Data/List.hpp"
#include "Data/ReferenceType.hpp"
#include "Data/ValueSetter.hpp"
#include "JsonPair.hpp"
#include "Serialization/JsonPrintable.hpp"
#include "StringTraits/StringTraits.hpp"
#include "TypeTraits/EnableIf.hpp"
#include "TypeTraits/IsArray.hpp"
#include "TypeTraits/IsFloatingPoint.hpp"
#include "TypeTraits/IsSame.hpp"
// Returns the size (in bytes) of an object with n elements.
// Can be very handy to determine the size of a StaticJsonBuffer.
#define JSON_OBJECT_SIZE(NUMBER_OF_ELEMENTS) \
(sizeof(JsonObject) + (NUMBER_OF_ELEMENTS) * sizeof(JsonObject::node_type))
namespace ArduinoJson {
// Forward declarations
class JsonArray;
class JsonBuffer;
// A dictionary of JsonVariant indexed by string (char*)
//
// The constructor is private, instances must be created via
// JsonBuffer::createObject() or JsonBuffer::parseObject().
// A JsonObject can be serialized to a JSON string via JsonObject::printTo().
// It can also be deserialized from a JSON string via JsonBuffer::parseObject().
class JsonObject : public Internals::JsonPrintable<JsonObject>,
public Internals::ReferenceType,
public Internals::NonCopyable,
public Internals::List<JsonPair>,
public Internals::JsonBufferAllocated {
public:
// Create an empty JsonArray attached to the specified JsonBuffer.
// You should not use this constructor directly.
// Instead, use JsonBuffer::createObject() or JsonBuffer.parseObject().
explicit JsonObject(JsonBuffer* buffer) throw()
: Internals::List<JsonPair>(buffer) {}
// Gets or sets the value associated with the specified key.
//
// JsonObjectSubscript operator[](TKey)
// TKey = const std::string&, const String&
template <typename TString>
typename TypeTraits::EnableIf<!TypeTraits::IsArray<TString>::value,
JsonObjectSubscript<const TString&> >::type
operator[](const TString& key) {
return JsonObjectSubscript<const TString&>(*this, key);
}
//
// JsonObjectSubscript operator[](TKey)
// TKey = const char*, const char[N], const FlashStringHelper*
template <typename TString>
JsonObjectSubscript<const TString*> operator[](const TString* key) {
return JsonObjectSubscript<const TString*>(*this, key);
}
// Gets the value associated with the specified key.
//
// const JsonObjectSubscript operator[](TKey) const;
// TKey = const std::string&, const String&
template <typename TString>
typename TypeTraits::EnableIf<
!TypeTraits::IsArray<TString>::value,
const JsonObjectSubscript<const TString&> >::type
operator[](const TString& key) const {
return JsonObjectSubscript<const TString&>(*const_cast<JsonObject*>(this),
key);
}
//
// const JsonObjectSubscript operator[](TKey) const;
// TKey = const char*, const char[N], const FlashStringHelper*
template <typename TString>
const JsonObjectSubscript<const TString*> operator[](
const TString* key) const {
return JsonObjectSubscript<const TString*>(*const_cast<JsonObject*>(this),
key);
}
// Sets the specified key with the specified value.
//
// bool set(TKey, TValue);
// TKey = const std::string&, const String&
// TValue = bool, long, int, short, float, double, RawJson, JsonVariant,
// const std::string&, const String&,
// const JsonArray&, const JsonObject&
template <typename TValue, typename TString>
typename TypeTraits::EnableIf<!TypeTraits::IsArray<TString>::value &&
!TypeTraits::IsArray<TValue>::value,
bool>::type
set(const TString& key, const TValue& value) {
return set_impl<const TString&, const TValue&>(key, value);
}
//
// bool set(TKey, TValue);
// TKey = const std::string&, const String&
// TValue = const char*, const char[N], const FlashStringHelper*
template <typename TValue, typename TString>
typename TypeTraits::EnableIf<!TypeTraits::IsArray<TString>::value,
bool>::type
set(const TString& key, const TValue* value) {
return set_impl<const TString&, const TValue*>(key, value);
}
//
// bool set(TKey, TValue);
// TKey = const char*, const char[N], const FlashStringHelper*
// TValue = bool, long, int, short, float, double, RawJson, JsonVariant,
// const std::string&, const String&,
// const JsonArray&, const JsonObject&
template <typename TValue, typename TString>
typename TypeTraits::EnableIf<!TypeTraits::IsArray<TValue>::value, bool>::type
set(const TString* key, const TValue& value) {
return set_impl<const TString*, const TValue&>(key, value);
}
//
// bool set(TKey, TValue);
// TKey = const char*, const char[N], const FlashStringHelper*
// TValue = const char*, const char[N], const FlashStringHelper*
template <typename TValue, typename TString>
bool set(const TString* key, const TValue* value) {
return set_impl<const TString*, const TValue*>(key, value);
}
//
// bool set(TKey, TValue, uint8_t decimals);
// TKey = const std::string&, const String&
// TValue = float, double
template <typename TValue, typename TString>
DEPRECATED("Second argument is not supported anymore")
typename TypeTraits::EnableIf<TypeTraits::IsFloatingPoint<TValue>::value &&
!TypeTraits::IsArray<TString>::value,
bool>::type
set(const TString& key, TValue value, uint8_t) {
return set_impl<const TString&, const JsonVariant&>(key,
JsonVariant(value));
}
//
// bool set(TKey, TValue, uint8_t decimals);
// TKey = const char*, const char[N], const FlashStringHelper*
// TValue = float, double
template <typename TValue, typename TString>
DEPRECATED("Second argument is not supported anymore")
typename TypeTraits::EnableIf<TypeTraits::IsFloatingPoint<TValue>::value,
bool>::type
set(const TString* key, TValue value, uint8_t) {
return set_impl<const TString*, const JsonVariant&>(key,
JsonVariant(value));
}
// Gets the value associated with the specified key.
//
// TValue get<TValue>(TKey);
// TKey = const std::string&, const String&
// TValue = bool, char, long, int, short, float, double,
// const std::string&, const String&,
// const JsonArray&, const JsonObject&
template <typename TValue, typename TString>
typename TypeTraits::EnableIf<
!TypeTraits::IsArray<TString>::value,
typename Internals::JsonVariantAs<TValue>::type>::type
get(const TString& key) const {
return get_impl<const TString&, TValue>(key);
}
//
// TValue get<TValue>(TKey);
// TKey = const char*, const char[N], const FlashStringHelper*
// TValue = bool, char, long, int, short, float, double,
// const std::string&, const String&,
// const JsonArray&, const JsonObject&
template <typename TValue, typename TString>
typename Internals::JsonVariantAs<TValue>::type get(
const TString* key) const {
return get_impl<const TString*, TValue>(key);
}
// Checks the type of the value associated with the specified key.
//
//
// bool is<TValue>(TKey) const;
// TKey = const std::string&, const String&
// TValue = bool, char, long, int, short, float, double,
// const std::string&, const String&,
// const JsonArray&, const JsonObject&
template <typename TValue, typename TString>
typename TypeTraits::EnableIf<!TypeTraits::IsArray<TString>::value,
bool>::type
is(const TString& key) const {
return is_impl<const TString&, TValue>(key);
}
//
// bool is<TValue>(TKey) const;
// TKey = const char*, const char[N], const FlashStringHelper*
// TValue = bool, char, long, int, short, float, double,
// const std::string&, const String&,
// const JsonArray&, const JsonObject&
template <typename TValue, typename TString>
bool is(const TString* key) const {
return is_impl<const TString*, TValue>(key);
}
// Creates and adds a JsonArray.
//
// JsonArray& createNestedArray(TKey);
// TKey = const std::string&, const String&
template <typename TString>
typename TypeTraits::EnableIf<!TypeTraits::IsArray<TString>::value,
JsonArray&>::type
createNestedArray(const TString& key) {
return createNestedArray_impl<const TString&>(key);
}
// JsonArray& createNestedArray(TKey);
// TKey = const char*, const char[N], const FlashStringHelper*
template <typename TString>
JsonArray& createNestedArray(const TString* key) {
return createNestedArray_impl<const TString*>(key);
}
// Creates and adds a JsonObject.
//
// JsonObject& createNestedObject(TKey);
// TKey = const std::string&, const String&
template <typename TString>
typename TypeTraits::EnableIf<!TypeTraits::IsArray<TString>::value,
JsonObject&>::type
createNestedObject(const TString& key) {
return createNestedObject_impl<const TString&>(key);
}
//
// JsonObject& createNestedObject(TKey);
// TKey = const char*, const char[N], const FlashStringHelper*
template <typename TString>
JsonObject& createNestedObject(const TString* key) {
return createNestedObject_impl<const TString*>(key);
}
// Tells weither the specified key is present and associated with a value.
//
// bool containsKey(TKey);
// TKey = const std::string&, const String&
template <typename TString>
typename TypeTraits::EnableIf<!TypeTraits::IsArray<TString>::value,
bool>::type
containsKey(const TString& key) const {
return findKey<const TString&>(key) != end();
}
//
// bool containsKey(TKey);
// TKey = const char*, const char[N], const FlashStringHelper*
template <typename TString>
bool containsKey(const TString* key) const {
return findKey<const TString*>(key) != end();
}
// Removes the specified key and the associated value.
//
// void remove(TKey);
// TKey = const std::string&, const String&
template <typename TString>
typename TypeTraits::EnableIf<!TypeTraits::IsArray<TString>::value,
void>::type
remove(const TString& key) {
remove(findKey<const TString&>(key));
}
//
// void remove(TKey);
// TKey = const char*, const char[N], const FlashStringHelper*
template <typename TString>
void remove(const TString* key) {
remove(findKey<const TString*>(key));
}
//
// void remove(iterator)
using Internals::List<JsonPair>::remove;
// Returns a reference an invalid JsonObject.
// This object is meant to replace a NULL pointer.
// This is used when memory allocation or JSON parsing fail.
static JsonObject& invalid() {
static JsonObject instance(NULL);
return instance;
}
private:
// Returns the list node that matches the specified key.
template <typename TStringRef>
iterator findKey(TStringRef key) {
iterator it;
for (it = begin(); it != end(); ++it) {
if (Internals::StringTraits<TStringRef>::equals(key, it->key)) break;
}
return it;
}
template <typename TStringRef>
const_iterator findKey(TStringRef key) const {
return const_cast<JsonObject*>(this)->findKey<TStringRef>(key);
}
template <typename TStringRef, typename TValue>
typename Internals::JsonVariantAs<TValue>::type get_impl(
TStringRef key) const {
const_iterator it = findKey<TStringRef>(key);
return it != end() ? it->value.as<TValue>()
: Internals::JsonVariantDefault<TValue>::get();
}
template <typename TStringRef, typename TValueRef>
bool set_impl(TStringRef key, TValueRef value) {
iterator it = findKey<TStringRef>(key);
if (it == end()) {
it = Internals::List<JsonPair>::add();
if (it == end()) return false;
bool key_ok =
Internals::ValueSetter<TStringRef>::set(_buffer, it->key, key);
if (!key_ok) return false;
}
return Internals::ValueSetter<TValueRef>::set(_buffer, it->value, value);
}
template <typename TStringRef, typename TValue>
bool is_impl(TStringRef key) const {
const_iterator it = findKey<TStringRef>(key);
return it != end() ? it->value.is<TValue>() : false;
}
template <typename TStringRef>
JsonArray& createNestedArray_impl(TStringRef key);
template <typename TStringRef>
JsonObject& createNestedObject_impl(TStringRef key);
};
namespace Internals {
template <>
struct JsonVariantDefault<JsonObject> {
static JsonObject& get() {
return JsonObject::invalid();
}
};
}
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "JsonArray.hpp"
#include "JsonObject.hpp"
#include "JsonObjectSubscript.hpp"
namespace ArduinoJson {
template <typename TStringRef>
inline JsonArray &JsonObject::createNestedArray_impl(TStringRef key) {
if (!_buffer) return JsonArray::invalid();
JsonArray &array = _buffer->createArray();
set(key, array);
return array;
}
template <typename TStringRef>
inline JsonObject &JsonObject::createNestedObject_impl(TStringRef key) {
if (!_buffer) return JsonObject::invalid();
JsonObject &object = _buffer->createObject();
set(key, object);
return object;
}
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "Configuration.hpp"
#include "JsonVariantBase.hpp"
#include "TypeTraits/EnableIf.hpp"
#ifdef _MSC_VER
#pragma warning(push)
#pragma warning(disable : 4522)
#endif
namespace ArduinoJson {
template <typename TStringRef>
class JsonObjectSubscript
: public JsonVariantBase<JsonObjectSubscript<TStringRef> > {
typedef JsonObjectSubscript<TStringRef> this_type;
public:
FORCE_INLINE JsonObjectSubscript(JsonObject& object, TStringRef key)
: _object(object), _key(key) {}
FORCE_INLINE this_type& operator=(const this_type& src) {
_object.set(_key, src);
return *this;
}
// Set the specified value
//
// operator=(TValue);
// TValue = bool, char, long, int, short, float, double,
// const std::string&, const String&,
// const JsonArray&, const JsonObject&
template <typename TValue>
FORCE_INLINE
typename TypeTraits::EnableIf<!TypeTraits::IsArray<TValue>::value,
this_type&>::type
operator=(const TValue& src) {
_object.set(_key, src);
return *this;
}
//
// operator=(TValue);
// TValue = const char*, const char[N], const FlashStringHelper*
template <typename TValue>
FORCE_INLINE this_type& operator=(const TValue* src) {
_object.set(_key, src);
return *this;
}
FORCE_INLINE bool success() const {
return _object.containsKey(_key);
}
template <typename TValue>
FORCE_INLINE typename Internals::JsonVariantAs<TValue>::type as() const {
return _object.get<TValue>(_key);
}
template <typename TValue>
FORCE_INLINE bool is() const {
return _object.is<TValue>(_key);
}
// Sets the specified value.
//
// bool set(TValue);
// TValue = bool, char, long, int, short, float, double, RawJson, JsonVariant,
// const std::string&, const String&,
// const JsonArray&, const JsonObject&
template <typename TValue>
FORCE_INLINE
typename TypeTraits::EnableIf<!TypeTraits::IsArray<TValue>::value,
bool>::type
set(const TValue& value) {
return _object.set(_key, value);
}
//
// bool set(TValue);
// TValue = const char*, const char[N], const FlashStringHelper*
template <typename TValue>
FORCE_INLINE bool set(const TValue* value) {
return _object.set(_key, value);
}
//
// bool set(TValue, uint8_t decimals);
// TValue = float, double
template <typename TValue>
DEPRECATED("Second argument is not supported anymore")
FORCE_INLINE bool set(const TValue& value, uint8_t) {
return _object.set(_key, value);
}
private:
JsonObject& _object;
TStringRef _key;
};
#if ARDUINOJSON_ENABLE_STD_STREAM
template <typename TStringRef>
inline std::ostream& operator<<(std::ostream& os,
const JsonObjectSubscript<TStringRef>& source) {
return source.printTo(os);
}
#endif
} // namespace ArduinoJson
#ifdef _MSC_VER
#pragma warning(pop)
#endif

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "JsonVariant.hpp"
namespace ArduinoJson {
// A key value pair for JsonObject.
struct JsonPair {
const char* key;
JsonVariant value;
};
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include <stddef.h>
#include <stdint.h> // for uint8_t
#include "Data/JsonVariantContent.hpp"
#include "Data/JsonVariantDefault.hpp"
#include "Data/JsonVariantType.hpp"
#include "JsonVariantBase.hpp"
#include "RawJson.hpp"
#include "Serialization/JsonPrintable.hpp"
#include "TypeTraits/EnableIf.hpp"
#include "TypeTraits/IsChar.hpp"
#include "TypeTraits/IsFloatingPoint.hpp"
#include "TypeTraits/IsIntegral.hpp"
#include "TypeTraits/IsSame.hpp"
#include "TypeTraits/IsSignedIntegral.hpp"
#include "TypeTraits/IsUnsignedIntegral.hpp"
#include "TypeTraits/RemoveConst.hpp"
#include "TypeTraits/RemoveReference.hpp"
namespace ArduinoJson {
// Forward declarations.
class JsonArray;
class JsonObject;
// A variant that can be a any value serializable to a JSON value.
//
// It can be set to:
// - a boolean
// - a char, short, int or a long (signed or unsigned)
// - a string (const char*)
// - a reference to a JsonArray or JsonObject
class JsonVariant : public JsonVariantBase<JsonVariant> {
template <typename Print>
friend class Internals::JsonSerializer;
public:
// Creates an uninitialized JsonVariant
JsonVariant() : _type(Internals::JSON_UNDEFINED) {}
// Create a JsonVariant containing a boolean value.
// It will be serialized as "true" or "false" in JSON.
JsonVariant(bool value) {
using namespace Internals;
_type = JSON_BOOLEAN;
_content.asInteger = static_cast<JsonUInt>(value);
}
// Create a JsonVariant containing a floating point value.
// JsonVariant(double value);
// JsonVariant(float value);
template <typename T>
JsonVariant(T value, typename TypeTraits::EnableIf<
TypeTraits::IsFloatingPoint<T>::value>::type * = 0) {
using namespace Internals;
_type = JSON_FLOAT;
_content.asFloat = static_cast<JsonFloat>(value);
}
template <typename T>
DEPRECATED("Second argument is not supported anymore")
JsonVariant(T value, uint8_t,
typename TypeTraits::EnableIf<
TypeTraits::IsFloatingPoint<T>::value>::type * = 0) {
using namespace Internals;
_type = JSON_FLOAT;
_content.asFloat = static_cast<JsonFloat>(value);
}
// Create a JsonVariant containing an integer value.
// JsonVariant(char)
// JsonVariant(signed short)
// JsonVariant(signed int)
// JsonVariant(signed long)
// JsonVariant(signed char)
template <typename T>
JsonVariant(T value, typename TypeTraits::EnableIf<
TypeTraits::IsSignedIntegral<T>::value ||
TypeTraits::IsSame<T, char>::value>::type * = 0) {
using namespace Internals;
if (value >= 0) {
_type = JSON_POSITIVE_INTEGER;
_content.asInteger = static_cast<JsonUInt>(value);
} else {
_type = JSON_NEGATIVE_INTEGER;
_content.asInteger = static_cast<JsonUInt>(-value);
}
}
// JsonVariant(unsigned short)
// JsonVariant(unsigned int)
// JsonVariant(unsigned long)
template <typename T>
JsonVariant(T value,
typename TypeTraits::EnableIf<
TypeTraits::IsUnsignedIntegral<T>::value>::type * = 0) {
using namespace Internals;
_type = JSON_POSITIVE_INTEGER;
_content.asInteger = static_cast<JsonUInt>(value);
}
// Create a JsonVariant containing a string.
// JsonVariant(const char*);
// JsonVariant(const signed char*);
// JsonVariant(const unsigned char*);
template <typename TChar>
JsonVariant(
const TChar *value,
typename TypeTraits::EnableIf<TypeTraits::IsChar<TChar>::value>::type * =
0) {
_type = Internals::JSON_STRING;
_content.asString = reinterpret_cast<const char *>(value);
}
// Create a JsonVariant containing an unparsed string
JsonVariant(RawJson value) {
_type = Internals::JSON_UNPARSED;
_content.asString = value;
}
// Create a JsonVariant containing a reference to an array.
// CAUTION: we are lying about constness, because the array can be modified if
// the variant is converted back to a JsonArray&
JsonVariant(const JsonArray &array);
// Create a JsonVariant containing a reference to an object.
// CAUTION: we are lying about constness, because the object can be modified
// if the variant is converted back to a JsonObject&
JsonVariant(const JsonObject &object);
// Get the variant as the specified type.
//
// char as<char>() const;
// signed char as<signed char>() const;
// signed short as<signed short>() const;
// signed int as<signed int>() const;
// signed long as<signed long>() const;
// unsigned char as<unsigned char>() const;
// unsigned short as<unsigned short>() const;
// unsigned int as<unsigned int>() const;
// unsigned long as<unsigned long>() const;
template <typename T>
const typename TypeTraits::EnableIf<TypeTraits::IsIntegral<T>::value, T>::type
as() const {
return variantAsInteger<T>();
}
// bool as<bool>() const
template <typename T>
const typename TypeTraits::EnableIf<TypeTraits::IsSame<T, bool>::value,
T>::type
as() const {
return variantAsInteger<int>() != 0;
}
//
// double as<double>() const;
// float as<float>() const;
template <typename T>
const typename TypeTraits::EnableIf<TypeTraits::IsFloatingPoint<T>::value,
T>::type
as() const {
return variantAsFloat<T>();
}
//
// const char* as<const char*>() const;
// const char* as<char*>() const;
template <typename T>
typename TypeTraits::EnableIf<TypeTraits::IsSame<T, const char *>::value ||
TypeTraits::IsSame<T, char *>::value,
const char *>::type
as() const {
return variantAsString();
}
//
// std::string as<std::string>() const;
// String as<String>() const;
template <typename T>
typename TypeTraits::EnableIf<Internals::StringTraits<T>::has_append, T>::type
as() const {
const char *cstr = variantAsString();
if (cstr) return T(cstr);
T s;
printTo(s);
return s;
}
//
// JsonArray& as<JsonArray> const;
// JsonArray& as<JsonArray&> const;
template <typename T>
typename TypeTraits::EnableIf<
TypeTraits::IsSame<typename TypeTraits::RemoveReference<T>::type,
JsonArray>::value,
JsonArray &>::type
as() const {
return variantAsArray();
}
//
// const JsonArray& as<const JsonArray&> const;
template <typename T>
typename TypeTraits::EnableIf<
TypeTraits::IsSame<typename TypeTraits::RemoveReference<T>::type,
const JsonArray>::value,
const JsonArray &>::type
as() const {
return variantAsArray();
}
//
// JsonObject& as<JsonObject> const;
// JsonObject& as<JsonObject&> const;
template <typename T>
typename TypeTraits::EnableIf<
TypeTraits::IsSame<typename TypeTraits::RemoveReference<T>::type,
JsonObject>::value,
JsonObject &>::type
as() const {
return variantAsObject();
}
//
// JsonObject& as<const JsonObject> const;
// JsonObject& as<const JsonObject&> const;
template <typename T>
typename TypeTraits::EnableIf<
TypeTraits::IsSame<typename TypeTraits::RemoveReference<T>::type,
const JsonObject>::value,
const JsonObject &>::type
as() const {
return variantAsObject();
}
//
// JsonVariant as<JsonVariant> const;
template <typename T>
typename TypeTraits::EnableIf<TypeTraits::IsSame<T, JsonVariant>::value,
T>::type
as() const {
return *this;
}
// Tells weither the variant has the specified type.
// Returns true if the variant has type type T, false otherwise.
//
// bool is<char>() const;
// bool is<signed char>() const;
// bool is<signed short>() const;
// bool is<signed int>() const;
// bool is<signed long>() const;
// bool is<unsigned char>() const;
// bool is<unsigned short>() const;
// bool is<unsigned int>() const;
// bool is<unsigned long>() const;
template <typename T>
typename TypeTraits::EnableIf<TypeTraits::IsIntegral<T>::value, bool>::type
is() const {
return variantIsInteger();
}
//
// bool is<double>() const;
// bool is<float>() const;
template <typename T>
typename TypeTraits::EnableIf<TypeTraits::IsFloatingPoint<T>::value,
bool>::type
is() const {
return variantIsFloat();
}
//
// bool is<bool>() const
template <typename T>
typename TypeTraits::EnableIf<TypeTraits::IsSame<T, bool>::value, bool>::type
is() const {
return variantIsBoolean();
}
//
// bool is<const char*>() const;
// bool is<char*>() const;
template <typename T>
typename TypeTraits::EnableIf<TypeTraits::IsSame<T, const char *>::value ||
TypeTraits::IsSame<T, char *>::value,
bool>::type
is() const {
return variantIsString();
}
//
// bool is<JsonArray> const;
// bool is<JsonArray&> const;
// bool is<const JsonArray&> const;
template <typename T>
typename TypeTraits::EnableIf<
TypeTraits::IsSame<
typename TypeTraits::RemoveConst<
typename TypeTraits::RemoveReference<T>::type>::type,
JsonArray>::value,
bool>::type
is() const {
return variantIsArray();
}
//
// bool is<JsonObject> const;
// bool is<JsonObject&> const;
// bool is<const JsonObject&> const;
template <typename T>
typename TypeTraits::EnableIf<
TypeTraits::IsSame<
typename TypeTraits::RemoveConst<
typename TypeTraits::RemoveReference<T>::type>::type,
JsonObject>::value,
bool>::type
is() const {
return variantIsObject();
}
// Returns true if the variant has a value
bool success() const {
return _type != Internals::JSON_UNDEFINED;
}
private:
JsonArray &variantAsArray() const;
JsonObject &variantAsObject() const;
const char *variantAsString() const;
template <typename T>
T variantAsFloat() const;
template <typename T>
T variantAsInteger() const;
bool variantIsBoolean() const;
bool variantIsFloat() const;
bool variantIsInteger() const;
bool variantIsArray() const {
return _type == Internals::JSON_ARRAY;
}
bool variantIsObject() const {
return _type == Internals::JSON_OBJECT;
}
bool variantIsString() const {
return _type == Internals::JSON_STRING ||
(_type == Internals::JSON_UNPARSED && _content.asString &&
!strcmp("null", _content.asString));
}
// The current type of the variant
Internals::JsonVariantType _type;
// The various alternatives for the value of the variant.
Internals::JsonVariantContent _content;
};
DEPRECATED("Decimal places are ignored, use the float value instead")
inline JsonVariant float_with_n_digits(float value, uint8_t) {
return JsonVariant(value);
}
DEPRECATED("Decimal places are ignored, use the double value instead")
inline JsonVariant double_with_n_digits(double value, uint8_t) {
return JsonVariant(value);
}
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "JsonVariantCasts.hpp"
#include "JsonVariantComparisons.hpp"
#include "JsonVariantSubscripts.hpp"
#include "Serialization/JsonPrintable.hpp"
namespace ArduinoJson {
template <typename TImpl>
class JsonVariantBase : public Internals::JsonPrintable<TImpl>,
public JsonVariantCasts<TImpl>,
public JsonVariantComparisons<TImpl>,
public JsonVariantSubscripts<TImpl>,
public TypeTraits::JsonVariantTag {};
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "Data/JsonVariantAs.hpp"
#include "Polyfills/attributes.hpp"
namespace ArduinoJson {
template <typename TImpl>
class JsonVariantCasts {
public:
#if ARDUINOJSON_ENABLE_DEPRECATED
DEPRECATED("use as<JsonArray>() instead")
FORCE_INLINE JsonArray &asArray() const {
return impl()->template as<JsonArray>();
}
DEPRECATED("use as<JsonObject>() instead")
FORCE_INLINE JsonObject &asObject() const {
return impl()->template as<JsonObject>();
}
DEPRECATED("use as<char*>() instead")
FORCE_INLINE const char *asString() const {
return impl()->template as<const char *>();
}
#endif
// Gets the variant as an array.
// Returns a reference to the JsonArray or JsonArray::invalid() if the
// variant
// is not an array.
FORCE_INLINE operator JsonArray &() const {
return impl()->template as<JsonArray &>();
}
// Gets the variant as an object.
// Returns a reference to the JsonObject or JsonObject::invalid() if the
// variant is not an object.
FORCE_INLINE operator JsonObject &() const {
return impl()->template as<JsonObject &>();
}
template <typename T>
FORCE_INLINE operator T() const {
return impl()->template as<T>();
}
private:
const TImpl *impl() const {
return static_cast<const TImpl *>(this);
}
};
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "StringTraits/StringTraits.hpp"
#include "TypeTraits/EnableIf.hpp"
#include "TypeTraits/IsVariant.hpp"
namespace ArduinoJson {
template <typename TImpl>
class JsonVariantComparisons {
public:
template <typename TComparand>
friend bool operator==(const JsonVariantComparisons &variant,
TComparand comparand) {
return variant.equals(comparand);
}
template <typename TComparand>
friend
typename TypeTraits::EnableIf<!TypeTraits::IsVariant<TComparand>::value,
bool>::type
operator==(TComparand comparand, const JsonVariantComparisons &variant) {
return variant.equals(comparand);
}
template <typename TComparand>
friend bool operator!=(const JsonVariantComparisons &variant,
TComparand comparand) {
return !variant.equals(comparand);
}
template <typename TComparand>
friend
typename TypeTraits::EnableIf<!TypeTraits::IsVariant<TComparand>::value,
bool>::type
operator!=(TComparand comparand, const JsonVariantComparisons &variant) {
return !variant.equals(comparand);
}
template <typename TComparand>
friend bool operator<=(const JsonVariantComparisons &left, TComparand right) {
return left.as<TComparand>() <= right;
}
template <typename TComparand>
friend bool operator<=(TComparand comparand,
const JsonVariantComparisons &variant) {
return comparand <= variant.as<TComparand>();
}
template <typename TComparand>
friend bool operator>=(const JsonVariantComparisons &variant,
TComparand comparand) {
return variant.as<TComparand>() >= comparand;
}
template <typename TComparand>
friend bool operator>=(TComparand comparand,
const JsonVariantComparisons &variant) {
return comparand >= variant.as<TComparand>();
}
template <typename TComparand>
friend bool operator<(const JsonVariantComparisons &varian,
TComparand comparand) {
return varian.as<TComparand>() < comparand;
}
template <typename TComparand>
friend bool operator<(TComparand comparand,
const JsonVariantComparisons &variant) {
return comparand < variant.as<TComparand>();
}
template <typename TComparand>
friend bool operator>(const JsonVariantComparisons &variant,
TComparand comparand) {
return variant.as<TComparand>() > comparand;
}
template <typename TComparand>
friend bool operator>(TComparand comparand,
const JsonVariantComparisons &variant) {
return comparand > variant.as<TComparand>();
}
private:
const TImpl *impl() const {
return static_cast<const TImpl *>(this);
}
template <typename T>
const typename Internals::JsonVariantAs<T>::type as() const {
return impl()->template as<T>();
}
template <typename T>
bool is() const {
return impl()->template is<T>();
}
template <typename TString>
typename TypeTraits::EnableIf<TypeTraits::IsString<TString>::value,
bool>::type
equals(const TString &comparand) const {
const char *value = as<const char *>();
return Internals::StringTraits<TString>::equals(comparand, value);
}
template <typename TComparand>
typename TypeTraits::EnableIf<!TypeTraits::IsVariant<TComparand>::value &&
!TypeTraits::IsString<TComparand>::value,
bool>::type
equals(const TComparand &comparand) const {
return as<TComparand>() == comparand;
}
template <typename TVariant2>
bool equals(const JsonVariantComparisons<TVariant2> &right) const {
using namespace Internals;
if (is<bool>() && right.template is<bool>())
return as<bool>() == right.template as<bool>();
if (is<JsonInteger>() && right.template is<JsonInteger>())
return as<JsonInteger>() == right.template as<JsonInteger>();
if (is<JsonFloat>() && right.template is<JsonFloat>())
return as<JsonFloat>() == right.template as<JsonFloat>();
if (is<JsonArray>() && right.template is<JsonArray>())
return as<JsonArray>() == right.template as<JsonArray>();
if (is<JsonObject>() && right.template is<JsonObject>())
return as<JsonObject>() == right.template as<JsonObject>();
if (is<char *>() && right.template is<char *>())
return strcmp(as<char *>(), right.template as<char *>()) == 0;
return false;
}
};
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "Configuration.hpp"
#include "JsonArray.hpp"
#include "JsonObject.hpp"
#include "JsonVariant.hpp"
#include "Polyfills/isFloat.hpp"
#include "Polyfills/isInteger.hpp"
#include "Polyfills/parseFloat.hpp"
#include "Polyfills/parseInteger.hpp"
#include <string.h> // for strcmp
namespace ArduinoJson {
inline JsonVariant::JsonVariant(const JsonArray &array) {
if (array.success()) {
_type = Internals::JSON_ARRAY;
_content.asArray = const_cast<JsonArray *>(&array);
} else {
_type = Internals::JSON_UNDEFINED;
}
}
inline JsonVariant::JsonVariant(const JsonObject &object) {
if (object.success()) {
_type = Internals::JSON_OBJECT;
_content.asObject = const_cast<JsonObject *>(&object);
} else {
_type = Internals::JSON_UNDEFINED;
}
}
inline JsonArray &JsonVariant::variantAsArray() const {
if (_type == Internals::JSON_ARRAY) return *_content.asArray;
return JsonArray::invalid();
}
inline JsonObject &JsonVariant::variantAsObject() const {
if (_type == Internals::JSON_OBJECT) return *_content.asObject;
return JsonObject::invalid();
}
template <typename T>
inline T JsonVariant::variantAsInteger() const {
using namespace Internals;
switch (_type) {
case JSON_UNDEFINED:
return 0;
case JSON_POSITIVE_INTEGER:
case JSON_BOOLEAN:
return T(_content.asInteger);
case JSON_NEGATIVE_INTEGER:
return T(~_content.asInteger + 1);
case JSON_STRING:
case JSON_UNPARSED:
return Polyfills::parseInteger<T>(_content.asString);
default:
return T(_content.asFloat);
}
}
inline const char *JsonVariant::variantAsString() const {
using namespace Internals;
if (_type == JSON_UNPARSED && _content.asString &&
!strcmp("null", _content.asString))
return NULL;
if (_type == JSON_STRING || _type == JSON_UNPARSED) return _content.asString;
return NULL;
}
template <typename T>
inline T JsonVariant::variantAsFloat() const {
using namespace Internals;
switch (_type) {
case JSON_UNDEFINED:
return 0;
case JSON_POSITIVE_INTEGER:
case JSON_BOOLEAN:
return static_cast<T>(_content.asInteger);
case JSON_NEGATIVE_INTEGER:
return -static_cast<T>(_content.asInteger);
case JSON_STRING:
case JSON_UNPARSED:
return Polyfills::parseFloat<T>(_content.asString);
default:
return static_cast<T>(_content.asFloat);
}
}
inline bool JsonVariant::variantIsBoolean() const {
using namespace Internals;
if (_type == JSON_BOOLEAN) return true;
if (_type != JSON_UNPARSED || _content.asString == NULL) return false;
return !strcmp(_content.asString, "true") ||
!strcmp(_content.asString, "false");
}
inline bool JsonVariant::variantIsInteger() const {
using namespace Internals;
return _type == JSON_POSITIVE_INTEGER || _type == JSON_NEGATIVE_INTEGER ||
(_type == JSON_UNPARSED && Polyfills::isInteger(_content.asString));
}
inline bool JsonVariant::variantIsFloat() const {
using namespace Internals;
return _type == JSON_FLOAT || _type == JSON_POSITIVE_INTEGER ||
_type == JSON_NEGATIVE_INTEGER ||
(_type == JSON_UNPARSED && Polyfills::isFloat(_content.asString));
}
#if ARDUINOJSON_ENABLE_STD_STREAM
inline std::ostream &operator<<(std::ostream &os, const JsonVariant &source) {
return source.printTo(os);
}
#endif
} // namespace ArduinoJson

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "Data/JsonVariantAs.hpp"
#include "Polyfills/attributes.hpp"
#include "StringTraits/StringTraits.hpp"
#include "TypeTraits/EnableIf.hpp"
namespace ArduinoJson {
// Forward declarations.
class JsonArraySubscript;
template <typename TKey>
class JsonObjectSubscript;
template <typename TImpl>
class JsonVariantSubscripts {
public:
// Mimics an array or an object.
// Returns the size of the array or object if the variant has that type.
// Returns 0 if the variant is neither an array nor an object
size_t size() const {
return impl()->template as<JsonArray>().size() +
impl()->template as<JsonObject>().size();
}
// Mimics an array.
// Returns the element at specified index if the variant is an array.
// Returns JsonVariant::invalid() if the variant is not an array.
FORCE_INLINE const JsonArraySubscript operator[](size_t index) const;
FORCE_INLINE JsonArraySubscript operator[](size_t index);
// Mimics an object.
// Returns the value associated with the specified key if the variant is
// an object.
// Return JsonVariant::invalid() if the variant is not an object.
//
// const JsonObjectSubscript operator[](TKey) const;
// TKey = const std::string&, const String&
template <typename TString>
FORCE_INLINE typename TypeTraits::EnableIf<
Internals::StringTraits<TString>::has_equals,
const JsonObjectSubscript<const TString &> >::type
operator[](const TString &key) const {
return impl()->template as<JsonObject>()[key];
}
//
// const JsonObjectSubscript operator[](TKey) const;
// TKey = const std::string&, const String&
template <typename TString>
FORCE_INLINE typename TypeTraits::EnableIf<
Internals::StringTraits<TString>::has_equals,
JsonObjectSubscript<const TString &> >::type
operator[](const TString &key) {
return impl()->template as<JsonObject>()[key];
}
//
// JsonObjectSubscript operator[](TKey);
// TKey = const char*, const char[N], const FlashStringHelper*
template <typename TString>
FORCE_INLINE typename TypeTraits::EnableIf<
Internals::StringTraits<const TString *>::has_equals,
JsonObjectSubscript<const TString *> >::type
operator[](const TString *key) {
return impl()->template as<JsonObject>()[key];
}
//
// JsonObjectSubscript operator[](TKey);
// TKey = const char*, const char[N], const FlashStringHelper*
template <typename TString>
FORCE_INLINE typename TypeTraits::EnableIf<
Internals::StringTraits<TString *>::has_equals,
const JsonObjectSubscript<const TString *> >::type
operator[](const TString *key) const {
return impl()->template as<JsonObject>()[key];
}
private:
const TImpl *impl() const {
return static_cast<const TImpl *>(this);
}
};
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#ifdef _MSC_VER // Visual Studio
#define FORCE_INLINE __forceinline
#define NO_INLINE __declspec(noinline)
#define DEPRECATED(msg) __declspec(deprecated(msg))
#elif defined(__GNUC__) // GCC or Clang
#define FORCE_INLINE __attribute__((always_inline))
#define NO_INLINE __attribute__((noinline))
#if __GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 5)
#define DEPRECATED(msg) __attribute__((deprecated(msg)))
#else
#define DEPRECATED(msg) __attribute__((deprecated))
#endif
#else // Other compilers
#define FORCE_INLINE
#define NO_INLINE
#define DEPRECATED(msg)
#endif

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
namespace ArduinoJson {
namespace Polyfills {
inline bool isdigit(char c) {
return '0' <= c && c <= '9';
}
inline bool issign(char c) {
return '-' == c || c == '+';
}
}
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include <string.h> // for strcmp
#include "./ctype.hpp"
namespace ArduinoJson {
namespace Polyfills {
inline bool isFloat(const char* s) {
if (!s) return false;
if (!strcmp(s, "NaN")) return true;
if (issign(*s)) s++;
if (!strcmp(s, "Infinity")) return true;
if (*s == '\0') return false;
while (isdigit(*s)) s++;
if (*s == '.') {
s++;
while (isdigit(*s)) s++;
}
if (*s == 'e' || *s == 'E') {
s++;
if (issign(*s)) s++;
if (!isdigit(*s)) return false;
while (isdigit(*s)) s++;
}
return *s == '\0';
}
}
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "./ctype.hpp"
namespace ArduinoJson {
namespace Polyfills {
inline bool isInteger(const char* s) {
if (!s) return false;
if (issign(*s)) s++;
while (isdigit(*s)) s++;
return *s == '\0';
}
}
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
namespace ArduinoJson {
namespace Polyfills {
template <typename T>
bool isNaN(T x) {
return x != x;
}
template <typename T>
bool isInfinity(T x) {
return x != 0.0 && x * 2 == x;
}
}
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "../TypeTraits/FloatTraits.hpp"
#include "./ctype.hpp"
#include "./math.hpp"
namespace ArduinoJson {
namespace Polyfills {
template <typename T>
inline T parseFloat(const char* s) {
typedef TypeTraits::FloatTraits<T> traits;
typedef typename traits::mantissa_type mantissa_t;
typedef typename traits::exponent_type exponent_t;
if (!s) return 0; // NULL
bool negative_result = false;
switch (*s) {
case '-':
negative_result = true;
s++;
break;
case '+':
s++;
break;
}
if (*s == 't') return 1; // true
if (*s == 'n' || *s == 'N') return traits::nan();
if (*s == 'i' || *s == 'I')
return negative_result ? -traits::inf() : traits::inf();
mantissa_t mantissa = 0;
exponent_t exponent_offset = 0;
while (isdigit(*s)) {
if (mantissa < traits::mantissa_max / 10)
mantissa = mantissa * 10 + (*s - '0');
else
exponent_offset++;
s++;
}
if (*s == '.') {
s++;
while (isdigit(*s)) {
if (mantissa < traits::mantissa_max / 10) {
mantissa = mantissa * 10 + (*s - '0');
exponent_offset--;
}
s++;
}
}
int exponent = 0;
if (*s == 'e' || *s == 'E') {
s++;
bool negative_exponent = false;
if (*s == '-') {
negative_exponent = true;
s++;
} else if (*s == '+') {
s++;
}
while (isdigit(*s)) {
exponent = exponent * 10 + (*s - '0');
if (exponent + exponent_offset > traits::exponent_max) {
if (negative_exponent)
return negative_result ? -0.0f : 0.0f;
else
return negative_result ? -traits::inf() : traits::inf();
}
s++;
}
if (negative_exponent) exponent = -exponent;
}
exponent += exponent_offset;
T result = traits::make_float(static_cast<T>(mantissa), exponent);
return negative_result ? -result : result;
}
}
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include <stdlib.h>
#include "../Configuration.hpp"
#include "./ctype.hpp"
namespace ArduinoJson {
namespace Polyfills {
template <typename T>
T parseInteger(const char *s) {
if (!s) return 0; // NULL
if (*s == 't') return 1; // "true"
T result = 0;
bool negative_result = false;
switch (*s) {
case '-':
negative_result = true;
s++;
break;
case '+':
s++;
break;
}
while (isdigit(*s)) {
result = T(result * 10 + T(*s - '0'));
s++;
}
return negative_result ? T(~result + 1) : result;
}
}
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
namespace ArduinoJson {
// A special type of data that can be used to insert pregenerated JSON portions.
class RawJson {
public:
explicit RawJson(const char* str) : _str(str) {}
operator const char*() const {
return _str;
}
private:
const char* _str;
};
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
namespace ArduinoJson {
namespace Internals {
// A dummy Print implementation used in JsonPrintable::measureLength()
class DummyPrint {
public:
size_t print(char) {
return 1;
}
size_t print(const char* s) {
return strlen(s);
}
};
}
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "../StringTraits/StringTraits.hpp"
namespace ArduinoJson {
namespace Internals {
// A Print implementation that allows to write in a String
template <typename TString>
class DynamicStringBuilder {
public:
DynamicStringBuilder(TString &str) : _str(str) {}
size_t print(char c) {
StringTraits<TString>::append(_str, c);
return 1;
}
size_t print(const char *s) {
size_t initialLen = _str.length();
StringTraits<TString>::append(_str, s);
return _str.length() - initialLen;
}
private:
DynamicStringBuilder &operator=(const DynamicStringBuilder &);
TString &_str;
};
}
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "../Configuration.hpp"
#include "../Polyfills/math.hpp"
#include "../TypeTraits/FloatTraits.hpp"
namespace ArduinoJson {
namespace Internals {
template <typename TFloat>
struct FloatParts {
uint32_t integral;
uint32_t decimal;
int16_t exponent;
int8_t decimalPlaces;
FloatParts(TFloat value) {
uint32_t maxDecimalPart = sizeof(TFloat) >= 8 ? 1000000000 : 1000000;
decimalPlaces = sizeof(TFloat) >= 8 ? 9 : 6;
exponent = normalize(value);
integral = uint32_t(value);
// reduce number of decimal places by the number of integral places
for (uint32_t tmp = integral; tmp >= 10; tmp /= 10) {
maxDecimalPart /= 10;
decimalPlaces--;
}
TFloat remainder = (value - TFloat(integral)) * TFloat(maxDecimalPart);
decimal = uint32_t(remainder);
remainder = remainder - TFloat(decimal);
// rounding:
// increment by 1 if remainder >= 0.5
decimal += uint32_t(remainder * 2);
if (decimal >= maxDecimalPart) {
decimal = 0;
integral++;
if (exponent && integral >= 10) {
exponent++;
integral = 1;
}
}
// remove trailing zeros
while (decimal % 10 == 0 && decimalPlaces > 0) {
decimal /= 10;
decimalPlaces--;
}
}
static int16_t normalize(TFloat& value) {
typedef TypeTraits::FloatTraits<TFloat> traits;
int16_t powersOf10 = 0;
int8_t index = sizeof(TFloat) == 8 ? 8 : 5;
int bit = 1 << index;
if (value >= ARDUINOJSON_POSITIVE_EXPONENTIATION_THRESHOLD) {
for (; index >= 0; index--) {
if (value >= traits::positiveBinaryPowerOfTen(index)) {
value *= traits::negativeBinaryPowerOfTen(index);
powersOf10 = int16_t(powersOf10 + bit);
}
bit >>= 1;
}
}
if (value > 0 && value <= ARDUINOJSON_NEGATIVE_EXPONENTIATION_THRESHOLD) {
for (; index >= 0; index--) {
if (value < traits::negativeBinaryPowerOfTenPlusOne(index)) {
value *= traits::positiveBinaryPowerOfTen(index);
powersOf10 = int16_t(powersOf10 - bit);
}
bit >>= 1;
}
}
return powersOf10;
}
};
}
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
namespace ArduinoJson {
namespace Internals {
// Decorator on top of Print to allow indented output.
// This class is used by JsonPrintable::prettyPrintTo() but can also be used
// for your own purpose, like logging.
template <typename Print>
class IndentedPrint {
public:
explicit IndentedPrint(Print &p) : sink(&p) {
level = 0;
tabSize = 2;
isNewLine = true;
}
size_t print(char c) {
size_t n = 0;
if (isNewLine) n += writeTabs();
n += sink->print(c);
isNewLine = c == '\n';
return n;
}
size_t print(const char *s) {
// TODO: optimize
size_t n = 0;
while (*s) n += print(*s++);
return n;
}
// Adds one level of indentation
void indent() {
if (level < MAX_LEVEL) level++;
}
// Removes one level of indentation
void unindent() {
if (level > 0) level--;
}
// Set the number of space printed for each level of indentation
void setTabSize(uint8_t n) {
if (n < MAX_TAB_SIZE) tabSize = n & MAX_TAB_SIZE;
}
private:
Print *sink;
uint8_t level : 4;
uint8_t tabSize : 3;
bool isNewLine : 1;
size_t writeTabs() {
size_t n = 0;
for (int i = 0; i < level * tabSize; i++) n += sink->print(' ');
return n;
}
static const int MAX_LEVEL = 15; // because it's only 4 bits
static const int MAX_TAB_SIZE = 7; // because it's only 3 bits
};
}
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "../Configuration.hpp"
#include "../TypeTraits/EnableIf.hpp"
#include "DummyPrint.hpp"
#include "DynamicStringBuilder.hpp"
#include "IndentedPrint.hpp"
#include "JsonSerializer.hpp"
#include "JsonWriter.hpp"
#include "Prettyfier.hpp"
#include "StaticStringBuilder.hpp"
#if ARDUINOJSON_ENABLE_STD_STREAM
#include "StreamPrintAdapter.hpp"
#endif
namespace ArduinoJson {
namespace Internals {
// Implements all the overloads of printTo() and prettyPrintTo()
// Caution: this class use a template parameter to avoid virtual methods.
// This is a bit curious but allows to reduce the size of JsonVariant, JsonArray
// and JsonObject.
template <typename T>
class JsonPrintable {
public:
template <typename Print>
typename TypeTraits::EnableIf<!TypeTraits::IsString<Print>::value,
size_t>::type
printTo(Print &print) const {
JsonWriter<Print> writer(print);
JsonSerializer<JsonWriter<Print> >::serialize(downcast(), writer);
return writer.bytesWritten();
}
#if ARDUINOJSON_ENABLE_STD_STREAM
std::ostream &printTo(std::ostream &os) const {
StreamPrintAdapter adapter(os);
printTo(adapter);
return os;
}
#endif
size_t printTo(char *buffer, size_t bufferSize) const {
StaticStringBuilder sb(buffer, bufferSize);
return printTo(sb);
}
template <size_t N>
size_t printTo(char (&buffer)[N]) const {
return printTo(buffer, N);
}
template <typename TString>
typename TypeTraits::EnableIf<StringTraits<TString>::has_append, size_t>::type
printTo(TString &str) const {
DynamicStringBuilder<TString> sb(str);
return printTo(sb);
}
template <typename Print>
size_t prettyPrintTo(IndentedPrint<Print> &print) const {
Prettyfier<Print> p(print);
return printTo(p);
}
size_t prettyPrintTo(char *buffer, size_t bufferSize) const {
StaticStringBuilder sb(buffer, bufferSize);
return prettyPrintTo(sb);
}
template <size_t N>
size_t prettyPrintTo(char (&buffer)[N]) const {
return prettyPrintTo(buffer, N);
}
template <typename Print>
typename TypeTraits::EnableIf<!TypeTraits::IsString<Print>::value,
size_t>::type
prettyPrintTo(Print &print) const {
IndentedPrint<Print> indentedPrint(print);
return prettyPrintTo(indentedPrint);
}
template <typename TString>
typename TypeTraits::EnableIf<StringTraits<TString>::has_append, size_t>::type
prettyPrintTo(TString &str) const {
DynamicStringBuilder<TString> sb(str);
return prettyPrintTo(sb);
}
size_t measureLength() const {
DummyPrint dp;
return printTo(dp);
}
size_t measurePrettyLength() const {
DummyPrint dp;
return prettyPrintTo(dp);
}
private:
const T &downcast() const {
return *static_cast<const T *>(this);
}
};
#if ARDUINOJSON_ENABLE_STD_STREAM
template <typename T>
inline std::ostream &operator<<(std::ostream &os, const JsonPrintable<T> &v) {
return v.printTo(os);
}
#endif
}
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "JsonWriter.hpp"
namespace ArduinoJson {
class JsonArray;
class JsonArraySubscript;
class JsonObject;
template <typename TKey>
class JsonObjectSubscript;
class JsonVariant;
namespace Internals {
template <typename Writer>
class JsonSerializer {
public:
static void serialize(const JsonArray &, Writer &);
static void serialize(const JsonArraySubscript &, Writer &);
static void serialize(const JsonObject &, Writer &);
template <typename TKey>
static void serialize(const JsonObjectSubscript<TKey> &, Writer &);
static void serialize(const JsonVariant &, Writer &);
};
}
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "../JsonArray.hpp"
#include "../JsonArraySubscript.hpp"
#include "../JsonObject.hpp"
#include "../JsonObjectSubscript.hpp"
#include "../JsonVariant.hpp"
#include "JsonSerializer.hpp"
template <typename Writer>
inline void ArduinoJson::Internals::JsonSerializer<Writer>::serialize(
const JsonArray& array, Writer& writer) {
writer.beginArray();
JsonArray::const_iterator it = array.begin();
while (it != array.end()) {
serialize(*it, writer);
++it;
if (it == array.end()) break;
writer.writeComma();
}
writer.endArray();
}
template <typename Writer>
inline void ArduinoJson::Internals::JsonSerializer<Writer>::serialize(
const JsonArraySubscript& arraySubscript, Writer& writer) {
serialize(arraySubscript.as<JsonVariant>(), writer);
}
template <typename Writer>
inline void ArduinoJson::Internals::JsonSerializer<Writer>::serialize(
const JsonObject& object, Writer& writer) {
writer.beginObject();
JsonObject::const_iterator it = object.begin();
while (it != object.end()) {
writer.writeString(it->key);
writer.writeColon();
serialize(it->value, writer);
++it;
if (it == object.end()) break;
writer.writeComma();
}
writer.endObject();
}
template <typename Writer>
template <typename TKey>
inline void ArduinoJson::Internals::JsonSerializer<Writer>::serialize(
const JsonObjectSubscript<TKey>& objectSubscript, Writer& writer) {
serialize(objectSubscript.template as<JsonVariant>(), writer);
}
template <typename Writer>
inline void ArduinoJson::Internals::JsonSerializer<Writer>::serialize(
const JsonVariant& variant, Writer& writer) {
switch (variant._type) {
case JSON_FLOAT:
writer.writeFloat(variant._content.asFloat);
return;
case JSON_ARRAY:
serialize(*variant._content.asArray, writer);
return;
case JSON_OBJECT:
serialize(*variant._content.asObject, writer);
return;
case JSON_STRING:
writer.writeString(variant._content.asString);
return;
case JSON_UNPARSED:
writer.writeRaw(variant._content.asString);
return;
case JSON_NEGATIVE_INTEGER:
writer.writeRaw('-'); // Falls through.
case JSON_POSITIVE_INTEGER:
writer.writeInteger(variant._content.asInteger);
return;
case JSON_BOOLEAN:
writer.writeBoolean(variant._content.asInteger != 0);
return;
default: // JSON_UNDEFINED
return;
}
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include <stdint.h>
#include "../Data/Encoding.hpp"
#include "../Data/JsonInteger.hpp"
#include "../Polyfills/attributes.hpp"
#include "../Serialization/FloatParts.hpp"
namespace ArduinoJson {
namespace Internals {
// Writes the JSON tokens to a Print implementation
// This class is used by:
// - JsonArray::writeTo()
// - JsonObject::writeTo()
// - JsonVariant::writeTo()
// Its derived by PrettyJsonWriter that overrides some members to add
// indentation.
template <typename Print>
class JsonWriter {
public:
explicit JsonWriter(Print &sink) : _sink(sink), _length(0) {}
// Returns the number of bytes sent to the Print implementation.
// This is very handy for implementations of printTo() that must return the
// number of bytes written.
size_t bytesWritten() const {
return _length;
}
void beginArray() {
writeRaw('[');
}
void endArray() {
writeRaw(']');
}
void beginObject() {
writeRaw('{');
}
void endObject() {
writeRaw('}');
}
void writeColon() {
writeRaw(':');
}
void writeComma() {
writeRaw(',');
}
void writeBoolean(bool value) {
writeRaw(value ? "true" : "false");
}
void writeString(const char *value) {
if (!value) {
writeRaw("null");
} else {
writeRaw('\"');
while (*value) writeChar(*value++);
writeRaw('\"');
}
}
void writeChar(char c) {
char specialChar = Encoding::escapeChar(c);
if (specialChar) {
writeRaw('\\');
writeRaw(specialChar);
} else {
writeRaw(c);
}
}
template <typename TFloat>
void writeFloat(TFloat value) {
if (Polyfills::isNaN(value)) return writeRaw("NaN");
if (value < 0.0) {
writeRaw('-');
value = -value;
}
if (Polyfills::isInfinity(value)) return writeRaw("Infinity");
FloatParts<TFloat> parts(value);
writeInteger(parts.integral);
if (parts.decimalPlaces) writeDecimals(parts.decimal, parts.decimalPlaces);
if (parts.exponent < 0) {
writeRaw("e-");
writeInteger(-parts.exponent);
}
if (parts.exponent > 0) {
writeRaw('e');
writeInteger(parts.exponent);
}
}
template <typename UInt>
void writeInteger(UInt value) {
char buffer[22];
char *end = buffer + sizeof(buffer) - 1;
char *ptr = end;
*ptr = 0;
do {
*--ptr = char(value % 10 + '0');
value = UInt(value / 10);
} while (value);
writeRaw(ptr);
}
void writeDecimals(uint32_t value, int8_t width) {
// buffer should be big enough for all digits, the dot and the null
// terminator
char buffer[16];
char *ptr = buffer + sizeof(buffer) - 1;
// write the string in reverse order
*ptr = 0;
while (width--) {
*--ptr = char(value % 10 + '0');
value /= 10;
}
*--ptr = '.';
// and dump it in the right order
writeRaw(ptr);
}
void writeRaw(const char *s) {
_length += _sink.print(s);
}
void writeRaw(char c) {
_length += _sink.print(c);
}
protected:
Print &_sink;
size_t _length;
private:
JsonWriter &operator=(const JsonWriter &); // cannot be assigned
};
}
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "IndentedPrint.hpp"
namespace ArduinoJson {
namespace Internals {
// Converts a compact JSON string into an indented one.
template <typename Print>
class Prettyfier {
public:
explicit Prettyfier(IndentedPrint<Print>& p) : _sink(p) {
_previousChar = 0;
_inString = false;
}
size_t print(char c) {
size_t n = _inString ? handleStringChar(c) : handleMarkupChar(c);
_previousChar = c;
return n;
}
size_t print(const char* s) {
// TODO: optimize
size_t n = 0;
while (*s) n += print(*s++);
return n;
}
private:
Prettyfier& operator=(const Prettyfier&); // cannot be assigned
bool inEmptyBlock() {
return _previousChar == '{' || _previousChar == '[';
}
size_t handleStringChar(char c) {
bool isQuote = c == '"' && _previousChar != '\\';
if (isQuote) _inString = false;
return _sink.print(c);
}
size_t handleMarkupChar(char c) {
switch (c) {
case '{':
case '[':
return writeBlockOpen(c);
case '}':
case ']':
return writeBlockClose(c);
case ':':
return writeColon();
case ',':
return writeComma();
case '"':
return writeQuoteOpen();
default:
return writeNormalChar(c);
}
}
size_t writeBlockClose(char c) {
size_t n = 0;
n += unindentIfNeeded();
n += _sink.print(c);
return n;
}
size_t writeBlockOpen(char c) {
size_t n = 0;
n += indentIfNeeded();
n += _sink.print(c);
return n;
}
size_t writeColon() {
size_t n = 0;
n += _sink.print(": ");
return n;
}
size_t writeComma() {
size_t n = 0;
n += _sink.print(",\r\n");
return n;
}
size_t writeQuoteOpen() {
_inString = true;
size_t n = 0;
n += indentIfNeeded();
n += _sink.print('"');
return n;
}
size_t writeNormalChar(char c) {
size_t n = 0;
n += indentIfNeeded();
n += _sink.print(c);
return n;
}
size_t indentIfNeeded() {
if (!inEmptyBlock()) return 0;
_sink.indent();
return _sink.print("\r\n");
}
size_t unindentIfNeeded() {
if (inEmptyBlock()) return 0;
_sink.unindent();
return _sink.print("\r\n");
}
char _previousChar;
IndentedPrint<Print>& _sink;
bool _inString;
};
}
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
namespace ArduinoJson {
namespace Internals {
// A Print implementation that allows to write in a char[]
class StaticStringBuilder {
public:
StaticStringBuilder(char *buf, size_t size) : end(buf + size - 1), p(buf) {
*p = '\0';
}
size_t print(char c) {
if (p >= end) return 0;
*p++ = c;
*p = '\0';
return 1;
}
size_t print(const char *s) {
char *begin = p;
while (p < end && *s) *p++ = *s++;
*p = '\0';
return size_t(p - begin);
}
private:
char *end;
char *p;
};
}
}

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "../Configuration.hpp"
#if ARDUINOJSON_ENABLE_STD_STREAM
#include <ostream>
namespace ArduinoJson {
namespace Internals {
class StreamPrintAdapter {
public:
explicit StreamPrintAdapter(std::ostream& os) : _os(os) {}
size_t print(char c) {
_os << c;
return 1;
}
size_t print(const char* s) {
_os << s;
return strlen(s);
}
private:
// cannot be assigned
StreamPrintAdapter& operator=(const StreamPrintAdapter&);
std::ostream& _os;
};
}
}
#endif // ARDUINOJSON_ENABLE_STD_STREAM

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// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#include "JsonBufferBase.hpp"
namespace ArduinoJson {
class StaticJsonBufferBase : public JsonBufferBase<StaticJsonBufferBase> {
public:
class String {
public:
String(StaticJsonBufferBase* parent) : _parent(parent) {
_start = parent->_buffer + parent->_size;
}
void append(char c) {
if (_parent->canAlloc(1)) {
char* last = static_cast<char*>(_parent->doAlloc(1));
*last = c;
}
}
const char* c_str() const {
if (_parent->canAlloc(1)) {
char* last = static_cast<char*>(_parent->doAlloc(1));
*last = '\0';
return _start;
} else {
return NULL;
}
}
private:
StaticJsonBufferBase* _parent;
char* _start;
};
StaticJsonBufferBase(char* buffer, size_t capa)
: _buffer(buffer), _capacity(capa), _size(0) {}
// Gets the capacity of the buffer in bytes
size_t capacity() const {
return _capacity;
}
// Gets the current usage of the buffer in bytes
size_t size() const {
return _size;
}
// Allocates the specified amount of bytes in the buffer
virtual void* alloc(size_t bytes) {
alignNextAlloc();
if (!canAlloc(bytes)) return NULL;
return doAlloc(bytes);
}
// Resets the buffer.
// USE WITH CAUTION: this invalidates all previously allocated data
void clear() {
_size = 0;
}
String startString() {
return String(this);
}
protected:
~StaticJsonBufferBase() {}
private:
void alignNextAlloc() {
_size = round_size_up(_size);
}
bool canAlloc(size_t bytes) const {
return _size + bytes <= _capacity;
}
void* doAlloc(size_t bytes) {
void* p = &_buffer[_size];
_size += bytes;
return p;
}
char* _buffer;
size_t _capacity;
size_t _size;
};
#if defined(__clang__)
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wnon-virtual-dtor"
#elif defined(__GNUC__)
#if __GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 6)
#pragma GCC diagnostic push
#endif
#pragma GCC diagnostic ignored "-Wnon-virtual-dtor"
#endif
// Implements a JsonBuffer with fixed memory allocation.
// The template paramenter CAPACITY specifies the capacity of the buffer in
// bytes.
template <size_t CAPACITY>
class StaticJsonBuffer : public StaticJsonBufferBase {
public:
explicit StaticJsonBuffer() : StaticJsonBufferBase(_buffer, CAPACITY) {}
private:
char _buffer[CAPACITY];
};
}
#if defined(__clang__)
#pragma clang diagnostic pop
#elif defined(__GNUC__)
#if __GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 6)
#pragma GCC diagnostic pop
#endif
#endif

61
lib/ArduinoJson-5.11.2/src/ArduinoJson/StringTraits/ArduinoStream.hpp
View File

@ -1,61 +0,0 @@
// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
#if ARDUINOJSON_ENABLE_ARDUINO_STREAM
#include <Stream.h>
namespace ArduinoJson {
namespace Internals {
struct ArduinoStreamTraits {
class Reader {
Stream& _stream;
char _current, _next;
public:
Reader(Stream& stream) : _stream(stream), _current(0), _next(0) {}
void move() {
_current = _next;
_next = 0;
}
char current() {
if (!_current) _current = read();
return _current;
}
char next() {
// assumes that current() has been called
if (!_next) _next = read();
return _next;
}
private:
char read() {
// don't use _stream.read() as it ignores the timeout
char c = 0;
_stream.readBytes(&c, 1);
return c;
}
};
};
template <typename TStream>
struct StringTraits<TStream,
// match any type that is derived from Stream:
typename TypeTraits::EnableIf<TypeTraits::IsBaseOf<
Stream, typename TypeTraits::RemoveReference<
TStream>::type>::value>::type>
: ArduinoStreamTraits {};
}
}
#endif

58
lib/ArduinoJson-5.11.2/src/ArduinoJson/StringTraits/CharPointer.hpp
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@ -1,58 +0,0 @@
// Copyright Benoit Blanchon 2014-2017
// MIT License
//
// Arduino JSON library
// https://bblanchon.github.io/ArduinoJson/
// If you like this project, please add a star!
#pragma once
namespace ArduinoJson {
namespace Internals {
template <typename TChar>
struct CharPointerTraits {
class Reader {
const TChar* _ptr;
public:
Reader(const TChar* ptr)
: _ptr(ptr ? ptr : reinterpret_cast<const TChar*>("")) {}
void move() {
++_ptr;
}
char current() const {
return char(_ptr[0]);
}
char next() const {
return char(_ptr[1]);
}
};
static bool equals(const TChar* str, const char* expected) {
return strcmp(reinterpret_cast<const char*>(str), expected) == 0;
}
template <typename Buffer>
static char* duplicate(const TChar* str, Buffer* buffer) {
if (!str) return NULL;
size_t size = strlen(reinterpret_cast<const char*>(str)) + 1;
void* dup = buffer->alloc(size);
if (dup != NULL) memcpy(dup, str, size);
return static_cast<char*>(dup);
}
static const bool has_append = false;
static const bool has_equals = true;
static const bool should_duplicate = false;
};
template <typename TChar>
struct StringTraits<TChar*, typename TypeTraits::EnableIf<
TypeTraits::IsChar<TChar>::value>::type>
: CharPointerTraits<TChar> {};
}
}

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