Script provides two methods to convert non-numeric values into numbers, namely parseInt () and parseFloat (). The former converts the value to an integer, and the latter converts the value to a floating point number. These methods can be correctly run only when they are called for the String type; NaN is returned for other types.
Detailed instructions are as follows:
Before determining whether a string is a numeric value, parseInt () and parseFloat () will carefully analyze the string. The parseInt () method first checks the character at the position 0 to determine whether it is a valid number. If not, the method returns NaN and does not continue to perform other operations. However, if the character is a valid number, this method will view the characters at position 1 and perform the same test. This process continues until a non-valid number is found. At this time, parseInt () converts the string before this character into a number. For example, if you want to convert the string "1234 blue" to an integer, parseInt () returns 1234 because the detection process stops when it detects character B. The number literal in the string is correctly converted to a number, so the string "0xA" is correctly converted to a number 10. However, the string "22.5" is converted to 22 because the decimal point is invalid for integers. Some examples are as follows:
Var iNum1 = parseInt ("1234blue"); // returns 1234
Var iNum2 = parseInt ("0xA"); // returns 10
Var iNum3 = parseInt ("22.5"); // returns 22
Var iNum4 = parseInt ("blue"); // returns NaN
The parseInt () method also has the base mode, which can convert binary, octal, hexadecimal, or any other hexadecimal string to an integer. The base is specified by the second parameter of the parseInt () method. to parse the hexadecimal value, you need to call the parseInt () method as follows:
Var iNum1 = parseInt ("AF", 16); // returns 175
Of course, for binary, octal, or even decimal (default mode), you can call the parseInt () method as follows:
Var iNum1 = parseInt ("10", 2); // returns 2
Var iNum2 = parseInt ("10", 8); // returns 8
Var iNum2 = parseInt ("10", 10); // returns 10
If the decimal number contains the leading 0, it is best to use base 10 to avoid unexpected octal values. For example:
Var iNum1 = parseInt ("010"); // returns 8
Var iNum2 = parseInt ("010", 8); // returns 8
Var iNum3 = parseInt ("010", 10); // returns 10
In this Code, both lines of code parse the string "010" into a number. The first line of code regards this string as the octal value. The method for parsing this string is the same as that of the second line of code (The Declaration base is 8. The last line of Code declares that the base number is 10, so iNum3 is equal to 10 at last.
The parseFloat () method is similar to the parseInt () method. Each character is viewed from position 0 until the first invalid character is found, then convert the string before the character to a number. However, for this method, the first decimal point is a valid character. If there are two decimal points, the second decimal point is considered invalid. The parseFloat () method converts the string before the decimal point to a number. This means that the string "22.34.5" will be parsed to 22.34.
Another difference in using parseFloat () Is that a string must represent a floating point in decimal format, rather than octal or hexadecimal format. This method will ignore the leading 0, so the number of octal errors 0908 will be parsed to 908. For the hexadecimal number 0xA, this method returns NaN because x is not a valid character in the floating point number. In addition, parseFloat () does not have a base mode.
The following is an example of using parseFloat:
Var fNum1 = parseFloat ("1234blue"); // returns 1234.0
Var fNum2 = parseFloat ("0xA"); // returns NaN
Var fNum3 = parseFloat ("22.5"); // returns 22.5
Var fNum4 = parseFloat ("22.34.5"); // returns 22.34
Var fNum5 = parseFloat ("0908"); // returns 908
Var fNum6 = parseFloat ("blue"); // returns NaN
2.7.3 forced type conversion
You can also use type casting to process the type of the converted value. You can use forced type conversion to access a specific value, even if it is another type. Three types of mandatory conversions available in scriptt are as follows:
Boolean (value) -- converts a given value to the Boolean type;
Number (value) -- converts a given value to a Number (which can be an integer or floating point Number );
String (value) -- converts a given value to a String.
Use one of the three functions to convert a value and store the value directly converted from the original value. This will cause unexpected consequences.
When the value to be converted is a string of at least one character, a non-zero number, or an object (This will be discussed in the next section), the Boolean () function returns true. If the value is a null String, number 0, undefined, or null, it returns false. You can use the following code snippet to test the forced type conversion of the Boolean type.
Var b1 = Boolean (""); // false-empty string
Var b2 = Boolean ("hi"); // true-non-empty string
Var b3 = Boolean (100); // true-non-zero number
Var b4 = Boolean (null); // false-null
Var b5 = Boolean (0); // false-zero
Var b6 = Boolean (new Object (); // true-object
The forced type conversion of Number () is similar to that of parseInt () and parseFloat (), except that it converts the entire value instead of the partial value. Remember that the parseInt () and parseFloat () methods only convert strings before the first invalid character, so "4.5.6" will be converted to "4.5 ". Use Number () for forced type conversion. "4.5.6" will return NaN because the entire string value cannot be converted to a Number. If the string value can be fully converted, Number () determines whether to call the parseInt () method or the parseFloat () method. The following table describes how to call the Number () method for different values:
Result through Method
Number (false) 0
Number (true) 1
Number (undefined) NaN
Number (null) 0
Number ("5.5") 5.5
Number ("56") 56
Number ("5.6.7") NaN
Number (new Object () NaN
No. (100) 100
The last forced type conversion method String () is the simplest, because it can convert any value into a String. To perform this forced type conversion, you only need to call the toString () method of the value passed as the parameter, that is, convert 1 to "1" and convert true to "true ", convert false to "false", and so on. The only difference between forced conversion to a string and calling the toString () method is that forced type conversion to a null or undefined value can generate a string without causing an error:
Var s1 = String (null); // "null"
Var oNull = null;
Var s2 = oNull. toString (); // won't work, causes an error
Forced type conversion is useful when dealing with a weak type language such as scriptt, but it should be ensured that the value