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B. Errors Generated by Make

Here is a list of the more common errors you might see generated by make, and some information about what they mean and how to fix them.

Sometimes make errors are not fatal, especially in the presence of a - prefix on a command script line, or the -k command line option. Errors that are fatal are prefixed with the string ***.

Error messages are all either prefixed with the name of the program (usually `make'), or, if the error is found in a makefile, the name of the file and linenumber containing the problem.

In the table below, these common prefixes are left off.

`[foo] Error NN'
`[foo] signal description'
These errors are not really make errors at all. They mean that a program that make invoked as part of a command script returned a non-0 error code (`Error NN'), which make interprets as failure, or it exited in some other abnormal fashion (with a signal of some type). See section Errors in Commands.

If no *** is attached to the message, then the subprocess failed but the rule in the makefile was prefixed with the - special character, so make ignored the error.

`missing separator. Stop.'
`missing separator (did you mean TAB instead of 8 spaces?). Stop.'
This means that make could not understand much of anything about the command line it just read. GNU make looks for various kinds of separators (:, =, TAB characters, etc.) to help it decide what kind of commandline it's seeing. This means it couldn't find a valid one.

One of the most common reasons for this message is that you (or perhaps your oh-so-helpful editor, as is the case with many MS-Windows editors) have attempted to indent your command scripts with spaces instead of a TAB character. In this case, make will use the second form of the error above. Remember that every line in the command script must begin with a TAB character. Eight spaces do not count. See section 4.2 Rule Syntax.

`commands commence before first target. Stop.'
`missing rule before commands. Stop.'
This means the first thing in the makefile seems to be part of a command script: it begins with a TAB character and doesn't appear to be a legal make command (such as a variable assignment). Command scripts must always be associated with a target.

The second form is generated if the line has a semicolon as the first non-whitespace character; make interprets this to mean you left out the "target: prerequisite" section of a rule. See section 4.2 Rule Syntax.

`No rule to make target `xxx'.'
`No rule to make target `xxx', needed by `yyy'.'
This means that make decided it needed to build a target, but then couldn't find any instructions in the makefile on how to do that, either explicit or implicit (including in the default rules database).

If you want that file to be built, you will need to add a rule to your makefile describing how that target can be built. Other possible sources of this problem are typos in the makefile (if that filename is wrong) or a corrupted source tree (if that file is not supposed to be built, but rather only a prerequisite).

`No targets specified and no makefile found. Stop.'
`No targets. Stop.'
The former means that you didn't provide any targets to be built on the command line, and make couldn't find any makefiles to read in. The latter means that some makefile was found, but it didn't contain any default target and none was given on the command line. GNU make has nothing to do in these situations. See section Arguments to Specify the Makefile.

`Makefile `xxx' was not found.'
`Included makefile `xxx' was not found.'
A makefile specified on the command line (first form) or included (second form) was not found.

`warning: overriding commands for target `xxx''
`warning: ignoring old commands for target `xxx''
GNU make allows commands to be specified only once per target (except for double-colon rules). If you give commands for a target which already has been defined to have commands, this warning is issued and the second set of commands will overwrite the first set. See section Multiple Rules for One Target.

`Circular xxx <- yyy dependency dropped.'
This means that make detected a loop in the dependency graph: after tracing the prerequisite yyy of target xxx, and its prerequisites, etc., one of them depended on xxx again.

`Recursive variable `xxx' references itself (eventually). Stop.'
This means you've defined a normal (recursive) make variable xxx that, when it's expanded, will refer to itself (xxx). This is not allowed; either use simply-expanded variables (:=) or use the append operator (+=). See section How to Use Variables.

`Unterminated variable reference. Stop.'
This means you forgot to provide the proper closing parenthesis or brace in your variable or function reference.

`insufficient arguments to function `xxx'. Stop.'
This means you haven't provided the requisite number of arguments for this function. See the documentation of the function for a description of its arguments. See section Functions for Transforming Text.

`missing target pattern. Stop.'
`multiple target patterns. Stop.'
`target pattern contains no `%'. Stop.'
These are generated for malformed static pattern rules. The first means there's no pattern in the target section of the rule, the second means there are multiple patterns in the target section, and the third means the target doesn't contain a pattern character (%). See section Syntax of Static Pattern Rules.

`warning: -jN forced in submake: disabling jobserver mode.'
This warning and the next are generated if make detects error conditions related to parallel processing on systems where sub-makes can communicate (see section Communicating Options to a Sub-make). This warning is generated if a recursive invocation of a make process is forced to have `-jN' in its argument list (where N is greater than one). This could happen, for example, if you set the MAKE environment variable to `make -j2'. In this case, the sub-make doesn't communicate with other make processes and will simply pretend it has two jobs of its own.

`warning: jobserver unavailable: using -j1. Add `+' to parent make rule.'
In order for make processes to communicate, the parent will pass information to the child. Since this could result in problems if the child process isn't actually a make, the parent will only do this if it thinks the child is a make. The parent uses the normal algorithms to determine this (see section How the MAKE Variable Works). If the makefile is constructed such that the parent doesn't know the child is a make process, then the child will receive only part of the information necessary. In this case, the child will generate this warning message and proceed with its build in a sequential manner.


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