Time Limit: 1000ms
Memory Limit: 65536kb
DescriptionNow there are many programming languages in which variables are dynamically declared at run time. Here we have a very simple one, named DL.
All variables in DL are of the signed integer type within the range –9999…9999. There are up to five types of statements in a DL program (each statement is in a separate program line, and the first statement is in line 1):
1. Dcl <id>
Dcl is a keyword specifying a declaration statement. id is a single (case-sensitive) letter designating a DL variable. For example Dcl x when executed correctly, allocates memory for variable x, and sets its value to zero.
2. <id> = <ic>
This is an assignment statement, where id is a DL variable, and ic is a literal integer constant in the range (0…9999). For example x = 2000 when executed correctly, changes value of x to 2000. Note that there may be one or more number of blank characters around =, but there is no tab characters.
3. Goto <label>, or Goto <id> <label>
Goto is a keyword specifying an unconditional or conditional goto statement. label is a program line's number. For example Goto 5 transfers the program execution flow to line 5 of the program, and Goto x 5 when executed correctly, trasfers the flow to line 5 iff x>0, and to the next line otherwise. The label is guaranteed to be in the range of program line numbers.
4.Inc <id>, or Dec <id>
Inc and Dec are keywords specifying increment and decrement statements respectively. For example Inc x (Dec y) when executed correctly adds (substracts) 1 to (from) the value of x (y).
End is a keyword specifying the end statement, whose execution stops the program.
Not that the keywords of the DL language are case-insensitive.
When one of the following erroneous statements encounters during the program execution, an error message appears in a separate line of the output. Each error message is of the form <label> <space> <error code>. label is the line number for the erroneous statement, space is one blank character, and error code is a positive integer specified below.
1. Dcl x is erroneous if x has not been referenced (used in assignment, goto, increment or decrement) since the last time a Dcl x (declaring the same variable) statement has been executed, unless this is the first Dcl x statement being executed. In this erroneous condition, an error message indicating a repeated declaration is generated as <label> 1, where label is the program line number for the erroneous statement. Then the program flow transfers to the statement in the next program line, and any prior correctly executed declaration for x is valid.
2. Any other statement where a variable such as x is referenced (used in assignment, goto, increment or decrement) is erroneous if no Dcl x has been previously correctly executed. In this case, an error message indicating an undeclared reference is generated as <label> 2 and the program execution continues from the next line.
InputFirst line of the input file contains a single integer N indicating the number of DL programs to follow (1 ≤ N ≤ 20). The first line of each test case contains a single integer indicating number of statements in that program which is in the range (1…100). There are no blank lines between test cases. Statements of each DL program come one after the other in separate lines without any blank lines in between. Statements are not explicitly labeled, but they are implicitly labeled by the number of their line beginning from 1 for the first statement in each program. There is no syntax error in programs and they are guaranteed to terminate, and no overflow or underflow errors will occur during execution. In each line of the program, tokens (e.g. GOTO, =, etc.) are separated by at least one blank character. Also there may be some blank characters in the beginning or at the end of each line.
OutputFor each input DL program, your output should start with the program number in the first line, followed by the error messages generated by the program in the order they are generated, each error message in one line. There should be no blank lines between error messages.
2 4 DCL X INC X DCL X END 9 DCL X INC X GOTO X 5 DCL Y Y = 100 DCL X DCL X Y = 50 END
1 2 5 2 7 1 8 2