It is meaningless. The term 'high-level language' implies a high-level of abstraction between the source code and the resultant machine code. In order for there to be a one-to-one relationship between the source code and the machine code, there must be little to no abstraction; the source language must be low-level. Assembly language is a low-level language with little to no abstraction.
I would guess that refers to the fact that a single instruction in a high-level language usually translates to several instructions in machine language.
Both, compiler and assembler, are software tools which translate instructions written in a programming language into executable machine code. (Both will typically require additional tools, such as a linker, in the process.) An assembler recognizes a machine-specific assembly language. This is a low-level language with a one-to-one relationship between language (assembly) instructions and machine code instructions. A compiler recognizes a generally machine-independent language such as the C programming language. These are higher level languages compared to the assembly languages, generally offering a one-to-many relationship between language instructions and expressions, and the resulting machine code instructions.
Machine code is the native language of the machine. The machine does not "understand" any language other than its own native language. As such, all other languages, including low level assembly languages, must be compiled or interpreted in order to produce the required machine code.
Generally speaking, it doesn't relate at all. If it did, it wouldn't be high-level, it would be machine-dependent. The relationship between the high-level code and the machine-code is ultimately determined by the language translator (compiler and/or interpreter) but, unlike assembly language which maps 1:1 with the microprocessor instruction set, compilers and interpreters are code generators and there is seldom a 1:1 relationship between the high-level source code and the machine code.
No. Generally, one instruction in a high level language corresponds to many instructions in machine language.
It converts machine level language to high level language simultaneously...and vice versa..
high level language is converted to machine level language using a compiler or an interpreter
The difference between high level languages and machine languages are as follows: 1)Machine language uses binary numbers/codes but high level languages(HLL) use key words similar to English and are easier to write. 2)Machine Language is a Low level language and is machine dependant while HLLs are not.
A language at the level of the machine it runs on. AKA Machine code, it's the underlying language that computer CPU's speak.
we need compiler to convert high level language in to machine language
Both, compiler and assembler, are software tools which translate instructions written in a programming language into executable machine code. (Both will typically require additional tools, such as a linker, in the process.) An assembler recognizes a machine-specific assembly language. This is a low-level language with a one-to-one relationship between language (assembly) instructions and machine code instructions. A compiler recognizes a generally machine-independent language such as the C programming language. These are higher level languages compared to the assembly languages, generally offering a one-to-many relationship between language instructions and expressions, and the resulting machine code instructions.
Machine code is the native language of the machine. The machine does not "understand" any language other than its own native language. As such, all other languages, including low level assembly languages, must be compiled or interpreted in order to produce the required machine code.
Generally speaking, it doesn't relate at all. If it did, it wouldn't be high-level, it would be machine-dependent. The relationship between the high-level code and the machine-code is ultimately determined by the language translator (compiler and/or interpreter) but, unlike assembly language which maps 1:1 with the microprocessor instruction set, compilers and interpreters are code generators and there is seldom a 1:1 relationship between the high-level source code and the machine code.
A language at the level of the machine it runs on. AKA Machine code, it's the underlying language that computer CPU's speak.
machine level language
No. Generally, one instruction in a high level language corresponds to many instructions in machine language.
Interpreater translate the high level language into machine level language line by line
It converts machine level language to high level language simultaneously...and vice versa..