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Tavultesoft Keyman 7.0 Helabasa: A Sinhala Keyboard for Windows
Tavultesoft Keyman 7.0 Helabasa is a software package that enables you to type Sinhala on your Windows computer using a phonetic keyboard layout. It is compatible with Windows XP, Vista, 7, 8 and 10. You can use it to write emails, documents, web pages and more in Sinhala.
Tavultesoft Keyman 7.0 Helabasa is based on the HelaBasa Sinhala keyboard developed by SIL International[^4^]. It supports both Unicode and legacy (ANSI) encoding for Sinhala fonts. You can switch between different keyboard modes and input methods using hotkeys or the language bar.
To install Tavultesoft Keyman 7.0 Helabasa, you need to download the keyboard package from the official website[^6^] and follow the instructions. You can also download a free trial version to test it before buying. The full version costs $19.95 USD and comes with a lifetime license and free updates.
Tavultesoft Keyman 7.0 Helabasa is a useful tool for anyone who wants to type Sinhala on their Windows computer. It is easy to use, customizable and reliable. However, it is not advisable to use it for illegal purposes such as cracking cocaine[^1^] [^2^] [^3^], as this may result in legal consequences and health risks.One of the benefits of using Unicode over ANSI is that Unicode can represent a much larger range of characters than ANSI, which is limited to 256 characters. Unicode can support over a million characters, including alphabets, symbols, emojis, and scripts from different languages and cultures. This makes Unicode more suitable for internationalization and localization of software and content.
Another benefit of using Unicode over ANSI is that Unicode is more consistent and portable across different platforms and systems. ANSI encodings vary depending on the locale and code page settings of the system, which can cause compatibility and interoperability issues. For example, a text file encoded in Windows-1252 (a common ANSI encoding) may not display correctly on a system that uses a different code page. Unicode encodings, such as UTF-8 and UTF-16, are standardized and do not depend on the system settings.
A third benefit of using Unicode over ANSI is that Unicode can avoid some security and stability problems that may arise from using multi-byte sequences in ANSI encodings. For example, some ANSI encodings use the high bit of a byte to indicate whether it is part of a multi-byte character or not. This can cause confusion and errors when processing text data that may contain binary data or control characters. Unicode encodings have clear rules for identifying and validating multi-byte sequences, which can prevent buffer overflows, injection attacks, and other vulnerabilities.However, Unicode also has some disadvantages over ANSI. One of them is the memory requirement for some Unicode encodings, such as UTF-16 and UTF-32. These encodings use more space than ANSI because they have more characters. Typically, they use 2 bytes or 4 bytes for each character, while ANSI uses only 1 byte. This means that Unicode files and strings may take up more storage and memory than ANSI ones. This can also affect the performance and bandwidth of applications that use Unicode.
Another disadvantage of Unicode over ANSI is the compatibility and interoperability with older systems and software. Some systems and software may not support Unicode or may support only a subset of it. This can cause problems when transferring or processing Unicode data across different platforms and environments. For example, some text editors may not display Unicode characters correctly or may corrupt them when saving or opening files. Some programming languages may not have built-in support for Unicode or may have different ways of handling it.
A third disadvantage of Unicode over ANSI is the complexity and diversity of Unicode itself. Unicode is a very large and evolving standard that covers many aspects of text representation, such as normalization, collation, segmentation, bidirectionality, and scripts. It also has many variants and extensions, such as UTF-8, UTF-16, UTF-32, UTF-7, UCS-2, UCS-4, etc. This can make it difficult to understand and implement Unicode correctly and consistently. It also requires more knowledge and skills from programmers and users who work with Unicode data. 061ffe29dd