mirror of
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156 lines
7.2 KiB
Plaintext
156 lines
7.2 KiB
Plaintext
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Types
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char — 8 bit data element
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int — 16 bit data element
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Declarations
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type name — declares name to be element
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type *name — declares name to be pointer to element of specified type
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type name[] — syntactically identical to above pointer declaration
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type name[constant] — declares an array of "constant” size where
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each array element is of specified type
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Constants
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Decimal number.
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Single or pair of ASCII characters enclosed in single quotes,
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such as ‘a’ or ‘T X ’.
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String enclosed in double quotes, such as “this is a string”.
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The value such a constant yields is a pointer to the first character
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of the string which the compiler stores in memory.
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Function Calls
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Defined as any expression followed by an open paren. Thus, a function
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can be to a named routine, such as “print()” , or to the results of some
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expression, such as “1000()” (which calls location 1000 decimal), or
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“array[i]()” which calls the location whose value is found in array[i] .
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Subscripted elements.
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Either an array name or a pointer may be subscripted to refer to the
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appropriate element. Subscripts are assumed to start from zero. Therefore,
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legal expressions are:
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array [0] - the first element in array,
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array [x+31] — the element at the address given by adding x to 31
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and then to array,
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pointer [i] — the elemen t at the address given by adding i to the
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contents of pointer.
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Only single dimensions are allowed. Subscripting either an integer array
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or a pointer to an integer will cause the subscript expression to be
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doubled. Therefore, if you declare “int *ptr”, the expression “ptr[3]”
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refers to the element at ptr+6.
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Unary Expression Operators
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"-" — forms the two’s complement of the expression (minus).
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“*” — refers to the element pointed to by the expression
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(providing the expression is a pointer).
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“&” — evaluates the address of the given expression, providing
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it hasone. Hence, &count yields the address of the element
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“count”. &1000 is an error.
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“&” — increments the expression by one. If this appears before the
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expression, it increments before using it. If it appears after
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it, it will increment it after. Only values (expressions which
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can appear on the left-hand side of an equal sign) are allowed.
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Hence, assuming “count” contains a 5, ++count would evaluate to
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a 6, and “count” would contain a 6. Likewise, count++ would
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evaluate to a 5, and count would contain a 6. 1000++ is illegal.
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If this operator is applied to an integer pointer, it will
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increment by 2.
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"--" — decrements the expression by one. This works just like ++ but
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subtracts one rather than adding.
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Binary Operators
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“+” — adds the two expressions (i.e. count + total)
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"-" — subtracts the two expressions.
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“*” — multiplies the two expressions.
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“/” — divides the first expression by the second.
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"%" — yields the remainder after dividing the first expression
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by the second (modulo).
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“|” — yields the logical inclusive “or” of the two expressions.
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"^" — yields the logical exclusive “or” of the two expressions.
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"&" — yields the logical “and” of the two expressions.
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“=” — assigns the value of the expression on the right to the one
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on the left. Since evaluation is done right to left in this
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case, syntaxes like "x = y = z" are legal.
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Comparison Operators
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“==” — tests for equality.
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“==” — tests for inequality.
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“<” — tests for less than.
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“>” — tests for greater than.
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“<=” — tests for less than or equal to
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“>=” — tests for greater than or equal to
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Comparisons involving a pointer (which is an address) are done
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as unsigned compares. All other compares are signed.
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Statements
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expression; An expression, no matter how complex, is considered
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a simple statement.
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if (expression); If the expression is non-zero, the statement
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is executed , otherwise it isn’t.
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if (expression) statement; else statement; This form of the “if”
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statement allows the “else” clause. As is the case with most
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“dangling else” ambiguities, all “else" statements pair with
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the nearest unmatched “if".
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while (expression) statement; The statement is performed until
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the expression becomes zero. Since the test is made before the
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statement is executed the first time, it need not be executed
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at all.
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break; This statement will cause control to be transferred out
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of the inner-most “while” loop.
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continue; This statement, used within a “while” loop, will transfer
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control back to the top of the loop.
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return; This statement does an immediate return from the current
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function . If a function does not end with this statement, one
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is performed regardless.
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return expression; This statement allows a function to return a
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value explicitly.
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; A semicolon by itself is considered a null statement which does
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nothing but take the place of a statement. You see this in forms
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such as: “while (*iptr++ = *jptr++);” where the test itself
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contains all the necessary parts of the statement.
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{statement; statement;. . . ; statement;} The use of curly brackets
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(“{ }”) around any group of simple statements is considered a
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compound statement. A compound statement can be used anywhere a
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simple statement can. For example:
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while (1) {x = 3; y = 10; funct(33);}
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or
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if (x< y)
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{ print(x);
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total (x);
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--x;
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}
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else
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{ type(“all done”);
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x = y;
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}
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Pseudo-ops
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#include filename — Anywhere this statement appears in the program,
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the indicated filename will be opened and inserted. The “included”
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file may not contain an “#include” statement.
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#define name string — This statement will cause the given name to
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be replaced by the string throughout the entire program . Normally,
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it is used to define constants, such as:
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#define tablesize 1000
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#define maxlength 8
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But it can also be used for any sort of text:
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#define jprint 3crs print(12); print(12); print(l2);
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The replacem ent is purely on a text level, and error checking will
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be performed only after the replacement.
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#asm . . . #endasm — This structure is not supported by standard C,
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but it was a feature I felt I needed. It may appear anywhere a statement
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would, but it passes everything between the word “#asm” and the word
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“#endasm” right through the parser without intervention. It is intended
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to be used to pass assembly language code through the parsing mechanism.
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Since it counts as a single statement, allowable (and expected) forms are:
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if (x < y)
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#asm
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LHLD TOTAL
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CALL ADD
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CNC ERROR
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#end asm
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else return;
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This pseudo-op conceivably allows an entire assembly language program to
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be passed through the compiler. Its intent is to allow machine dependent
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features (like the 8080’s “IN” and “OUT” instructions to be used without
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writing separate programs).
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