LCD – Binary Options göstəriciləri

İkili seçim brokerlərinin reytinqi:
  • Binomo
    Binomo

    Ən yaxşı ikili seçim brokeridir!
    Pulsuz təlim və demo hesabı!

Tipu Renko Live İkili Seçimlər Göstəricisi

Binary Options göstəriciləri – Download Təlimatlar

Tipu Renko Live Binary Options Indicator is a Metatrader 4 (MT4) göstərici və forex göstərici mahiyyəti yığılmış tarixi data çevirmək üçün edir.

Tipu Renko Live Binary Options Indicator provides for an opportunity to detect various peculiarities and patterns in price dynamics which are invisible to the naked eye .

Bu məlumatlar əsasında, treyderlər daha qiymət hərəkət güman və müvafiq strategiya bilərsiniz.

How to install Tipu Renko Live Binary Options Indicator.mq4 ?

  • Download Tipu Renko Live Binary Options Indicator.mq4
  • Copy Tipu Renko Live Binary Options Indicator.mq4 to your Metatrader Directory / ekspertlər / göstəriciləri /
  • Başlamaq və ya Metatrader Client yenidən başladın
  • Sizin göstərici test etmək istəyirəm seçin strukturu və Vaxt
  • Axtarış “Xüsusi göstəriciləri” Sizin Navigator əsasən sizin Metatrader Müştəri sol
  • Right click on Tipu Renko Live Binary Options Indicator.mq4
  • Bir chart əlavə
  • Parametrləri və ya basın ok dəyişdirin
  • Indicator Tipu Renko Live Binary Options Indicator.mq4 is available on your Chart

How to remove Tipu Renko Live Binary Options Indicator.mq4 from your Metatrader Chart ?

  • Göstərici Sizin Metatrader Müştəri çalışan Chart seçin
  • Sağ Chart basın
  • “Göstəricilər siyahısı”
  • Göstərici seçin və silmək

Binary Options Göstəricilər yükləmək üçün buraya aşağıdakı basın:
Tipu Renko Live

LCD – Binary Options göstəriciləri

lcd: a variable of type LiquidCrystal

İkili seçim brokerlərinin reytinqi:
  • Binomo
    Binomo

    Ən yaxşı ikili seçim brokeridir!
    Pulsuz təlim və demo hesabı!

data: the data to print (char, byte, int, long, or string)

BASE (optional): the base in which to print numbers: BIN for binary (base 2), DEC for decimal (base 10), OCT for octal (base 8), HEX for hexadecimal (base 16).

Returns

byte
print() will return the number of bytes written, though reading that number is optional

Example

LiquidCrystal lcd ( 12 , 11 , 10 , 5 , 4 , 3 , 2 ) ;

void setup ( )
<
lcd. print ( “hello, world!” ) ;
>

Corrections, suggestions, and new documentation should be posted to the Forum.

The text of the Arduino reference is licensed under a Creative Commons Attribution-ShareAlike 3.0 License. Code samples in the reference are released into the public domain.

Reducing Marlin firmware binary size to fit in your 3D printer board memory

How to reduce the Marlin binary size? Here are a set of special compilation flags and options you can disable to save up to 16.3 Kb of memory for common AVR boards. Some build flags are also provided for ARM boards at the end.

Special compilation flags

Changing them is easy wether you are using Arduino IDE or PlataformIO.

If you are using PlataformIO, it is easier. Just create a new build target in platformio.ini, copying the original config for your printer board and add the new flags:

In Arduino IDE, you should edit the file platform.local.txt for your board. It is inside the hardware folder, together with your other Arduino project folders, or in the Arduino instalation folder. Search for it.

Content to add in platform.local.txt:

Not that you should, but you can even try more aggressive optimizations supposed to change a little the printer execution time for some routines:

From these options, inline-limit and mcall-prologues can slightly interfere in execution velocity due to additional function calls. Fast-math, in turn, changes the way math is made in several ways, and I’m not sure it affects Marlin. You can check a list of modifications in using the fast-math flag in this Stack Overflow answer.

You can verify what each of these options does in avr-gcc man page or online at avr-gcc manpage. Check also this list of optimizations for AVR.

Some of my sizes using PlatformIO to build Marlin 1.1.9 for a customized version of an Anet A8 with filament runout sensor, bed probe, graphical display, wifi and others:

Size (bytes) Options
125216 Default flags
124240 -fno-tree-scev-cprop -fno-split-wide-types
123324 -fno-tree-scev-cprop -fno-split-wide-types -Wl,–relax
119730 -fno-tree-scev-cprop -fno-split-wide-types -Wl,–relax -mcall-prologues
118872 -fno-tree-scev-cprop -fno-split-wide-types -Wl,–relax -mcall-prologues -finline-limit=3 -ffast-math

Updated sizes for Marlin 2.0

For Marlin 2.0, the same flags provided above apply. The binary size for the default Creality Ender 3, for example, are:

Size (bytes) Options
126340 (97.1% of 130048) Default flags for sanguino1284p
125782 -fno-tree-scev-cprop -fno-split-wide-types
124770 -fno-tree-scev-cprop -fno-split-wide-types -Wl,–relax
120808 -fno-tree-scev-cprop -fno-split-wide-types -Wl,–relax -mcall-prologues
119898 (92.2% of 130048) -fno-tree-scev-cprop -fno-split-wide-types -Wl,–relax -mcall-prologues -finline-limit=3 -ffast-math

For Ender 3, the flags were able to save up to 6.4 Kb for you to enable exceptional options!

Ready to disable some unused options?

Disabling some options in Configuration.h and Configuration_adv.h can help you increase the space available for more exceptional options:

Option and Description Size recovered (up to)
SLIM_LCD_MENUS: Remove extraneous LCD menus, such as those in advanced configurations menu (velocity, acceleration, etc). You still will be able to configure them through M gcode equivalent commands. 4.7 Kb
ARC_SUPORT: Support to Arc movements. As far as I know, this is mostly used in CNC or laser cutters. The slicers I know can’t output arc movements. 3.3 Kb
LCD_INFO_MENU: A menu with printer information. 1.7 Kb
SHOW_BOOTSCREEN, SHOW_CUSTOM_BOOTSCREEN, CUSTOM_STATUS_SCREEN_IMAGE: In my opinion, it loses some personality, but the three together can save up to: 1.4 Kb

Build flags for Marlin 2.0 and ARM?

Recently, I built Marlin for a custom ARM board based on an STM32 F103CB (Also known as Blue Pill). All the compiler flags from above can be used, except by -mcall-prologues. However, they are not so beneficial as for AVR.

The killer option for ARM is to use the Nano C Runtime library, passing –specs=nano.specs to the linker. To do it, create a new file named add_nanolib.py in the root directory of marlin with the following content:

and add the extra_scripts option in platformio.ini for your board:

The sizes below is for platform = ststm32, framework = arduino, and board = genericSTM32F103CB.

Size (bytes) build_flags
127688 (97.4% of 131072) build_flags = !python Marlin/src/HAL/STM32F1/build_flags.py $ -DSERIAL_USB
126816 … -ffast-math
108964 … add extra_scripts = add_nanolib.py

Of course, you can also disable the options in Configuration.h and they should save up equivalent memory sizes. The SLIM_LCD_MENUS, for example, release even more memory on ARM, freeing 5.4 Kb!

İkili seçim brokerlərinin reytinqi:
  • Binomo
    Binomo

    Ən yaxşı ikili seçim brokeridir!
    Pulsuz təlim və demo hesabı!

Pul hara qoyulacaq?
Bir cavab yazın

;-) :| :x :twisted: :smile: :shock: :sad: :roll: :razz: :oops: :o :mrgreen: :lol: :idea: :grin: :evil: :cry: :cool: :arrow: :???: :?: :!: