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#include <stdlibh> #include <stdioh> #include <stringh> int main(void) { char *s; register int t; s = (char *) malloc(80); if(!s) { printf("Memory request failed\n"); exit(1); } gets(s); for(t=strlen(s)-1; t>=0; t--) putchar(s[t]); free(s); return 0; }
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As the program shows, s is tested prior to its first use to ensure that a valid pointer is returned by malloc( ) This is absolutely necessary to prevent accidental use of a null pointer Notice how the pointer s is indexed as an array to print the string backward
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C/C++ allows the initialization of arrays at the time of their declaration The general form of array initialization is similar to that of other variables, as shown here: type-specifier array_name[size1] [sizeN ] = { value-list }; The value-list is a comma-separated list of values that are type-compatible with type-specifier The first value is placed in the first position of the array, the second value in the second position, and so on The last entry in the list is not followed by a comma Note that a semicolon follows the } For compatibility with C89, array initializers must be constants
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In the following example, a 10-element integer array is initialized with the numbers 1 through 10:
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int i[10] = {1, 2, 3, 4, 5, 6, 7, 8, 9, 10};
This means that i[0] has the value 1 and i[9] has the value 10 Character arrays that hold strings allow a shorthand initialization in the form char array_name[size] = "string"; In this form of initialization, the null terminator is automatically appended to the string For example, this code fragment initializes str to the phrase "hello":
char str[6] = "hello";
This is the same as writing
char str[6] = {'h', 'e', 'l', 'l', 'o', '\0'};
Notice that in this version you must explicitly include the null terminator Because strings end with a null, you must make sure that the array you declare is long enough to include it This is why str is six characters long even though "hello" is only five characters When the string constant is used (as in the previous approach), the compiler automatically supplies the null terminator Multidimensional arrays are initialized in the same fashion as single-dimension ones For example, the following initializes sqrs with the numbers 1 through 10 and their squares:
int sqrs[10][2] = { 1, 1, 2, 4, 3, 9, 4, 16, 5, 25, 6, 36, 7, 49, 8, 64, 9, 81, 10, 100 };
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Here, sqrs[0][0] contains 1, sqrs[0][1] contains 1, sqrs[1][0] contains 2, sqrs[1][1] contains 4, and so forth When initializing a multidimensional array, you may add braces around the initializers for each dimension This is called subaggregate grouping For example, here is another way to write the preceding declaration:
int sqrs[10][2] = { {1, 1}, {2, 4}, {3, 9}, {4, 16}, {5, 25}, {6, 36}, {7, 49}, {8, 64}, {9, 81}, {10, 100} };
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When using subaggregate grouping, if you don t supply enough initializers for a given group, the remaining members will be set to zero, automatically
Unsized-Array Initializations
Imagine that you are using an array initialization to build a table of error messages as shown here:
char e1[12] = "Read Error\n"; char e2[13] = "Write Error\n"; char e3[18] = "Cannot Open File\n";
As you might guess, it is very tedious to count the characters in each message manually to determine the correct array dimensions It is possible to let the compiler dimension the arrays automatically by using unsized arrays If the size of the array is not specified in an array initialization statement, the compiler automatically creates an array big enough to hold all the initializers present Using this approach, the message table becomes
char e1[] = "Read Error\n"; char e2[] = "Write Error\n"; char e3[] = "Cannot Open File\n";
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