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A CHECK-NOT pattern without a following CHECK pattern simply checks that the pattern doesn't match before the end of the input file. You can even have only CHECK-NOT patterns to check that strings appear nowhere in the input file. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@116592 91177308-0d34-0410-b5e6-96231b3b80d8
246 lines
9.0 KiB
Plaintext
246 lines
9.0 KiB
Plaintext
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=pod
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=head1 NAME
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FileCheck - Flexible pattern matching file verifier
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=head1 SYNOPSIS
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B<FileCheck> I<match-filename> [I<--check-prefix=XXX>] [I<--strict-whitespace>]
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=head1 DESCRIPTION
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B<FileCheck> reads two files (one from standard input, and one specified on the
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command line) and uses one to verify the other. This behavior is particularly
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useful for the testsuite, which wants to verify that the output of some tool
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(e.g. llc) contains the expected information (for example, a movsd from esp or
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whatever is interesting). This is similar to using grep, but it is optimized
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for matching multiple different inputs in one file in a specific order.
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The I<match-filename> file specifies the file that contains the patterns to
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match. The file to verify is always read from standard input.
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=head1 OPTIONS
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=over
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=item B<-help>
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Print a summary of command line options.
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=item B<--check-prefix> I<prefix>
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FileCheck searches the contents of I<match-filename> for patterns to match. By
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default, these patterns are prefixed with "CHECK:". If you'd like to use a
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different prefix (e.g. because the same input file is checking multiple
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different tool or options), the B<--check-prefix> argument allows you to specify
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a specific prefix to match.
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=item B<--strict-whitespace>
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By default, FileCheck canonicalizes input horizontal whitespace (spaces and
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tabs) which causes it to ignore these differences (a space will match a tab).
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The --strict-whitespace argument disables this behavior.
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=item B<-version>
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Show the version number of this program.
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=back
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=head1 EXIT STATUS
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If B<FileCheck> verifies that the file matches the expected contents, it exits
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with 0. Otherwise, if not, or if an error occurs, it will exit with a non-zero
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value.
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=head1 TUTORIAL
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FileCheck is typically used from LLVM regression tests, being invoked on the RUN
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line of the test. A simple example of using FileCheck from a RUN line looks
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like this:
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; RUN: llvm-as < %s | llc -march=x86-64 | FileCheck %s
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This syntax says to pipe the current file ("%s") into llvm-as, pipe that into
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llc, then pipe the output of llc into FileCheck. This means that FileCheck will
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be verifying its standard input (the llc output) against the filename argument
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specified (the original .ll file specified by "%s"). To see how this works,
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lets look at the rest of the .ll file (after the RUN line):
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define void @sub1(i32* %p, i32 %v) {
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entry:
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; <b>CHECK: sub1:</b>
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; <b>CHECK: subl</b>
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%0 = tail call i32 @llvm.atomic.load.sub.i32.p0i32(i32* %p, i32 %v)
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ret void
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}
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define void @inc4(i64* %p) {
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entry:
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; <b>CHECK: inc4:</b>
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; <b>CHECK: incq</b>
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%0 = tail call i64 @llvm.atomic.load.add.i64.p0i64(i64* %p, i64 1)
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ret void
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}
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Here you can see some "CHECK:" lines specified in comments. Now you can see
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how the file is piped into llvm-as, then llc, and the machine code output is
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what we are verifying. FileCheck checks the machine code output to verify that
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it matches what the "CHECK:" lines specify.
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The syntax of the CHECK: lines is very simple: they are fixed strings that
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must occur in order. FileCheck defaults to ignoring horizontal whitespace
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differences (e.g. a space is allowed to match a tab) but otherwise, the contents
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of the CHECK: line is required to match some thing in the test file exactly.
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One nice thing about FileCheck (compared to grep) is that it allows merging
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test cases together into logical groups. For example, because the test above
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is checking for the "sub1:" and "inc4:" labels, it will not match unless there
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is a "subl" in between those labels. If it existed somewhere else in the file,
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that would not count: "grep subl" matches if subl exists anywhere in the
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file.
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=head2 The FileCheck -check-prefix option
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The FileCheck -check-prefix option allows multiple test configurations to be
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driven from one .ll file. This is useful in many circumstances, for example,
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testing different architectural variants with llc. Here's a simple example:
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; RUN: llvm-as < %s | llc -mtriple=i686-apple-darwin9 -mattr=sse41 \
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; RUN: | <b>FileCheck %s -check-prefix=X32</b>
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; RUN: llvm-as < %s | llc -mtriple=x86_64-apple-darwin9 -mattr=sse41 \
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; RUN: | <b>FileCheck %s -check-prefix=X64</b>
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define <4 x i32> @pinsrd_1(i32 %s, <4 x i32> %tmp) nounwind {
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%tmp1 = insertelement <4 x i32>; %tmp, i32 %s, i32 1
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ret <4 x i32> %tmp1
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; <b>X32:</b> pinsrd_1:
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; <b>X32:</b> pinsrd $1, 4(%esp), %xmm0
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; <b>X64:</b> pinsrd_1:
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; <b>X64:</b> pinsrd $1, %edi, %xmm0
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}
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In this case, we're testing that we get the expected code generation with
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both 32-bit and 64-bit code generation.
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=head2 The "CHECK-NEXT:" directive
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Sometimes you want to match lines and would like to verify that matches
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happen on exactly consequtive lines with no other lines in between them. In
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this case, you can use CHECK: and CHECK-NEXT: directives to specify this. If
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you specified a custom check prefix, just use "<PREFIX>-NEXT:". For
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example, something like this works as you'd expect:
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define void @t2(<2 x double>* %r, <2 x double>* %A, double %B) {
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%tmp3 = load <2 x double>* %A, align 16
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%tmp7 = insertelement <2 x double> undef, double %B, i32 0
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%tmp9 = shufflevector <2 x double> %tmp3,
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<2 x double> %tmp7,
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<2 x i32> < i32 0, i32 2 >
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store <2 x double> %tmp9, <2 x double>* %r, align 16
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ret void
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; <b>CHECK:</b> t2:
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; <b>CHECK:</b> movl 8(%esp), %eax
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; <b>CHECK-NEXT:</b> movapd (%eax), %xmm0
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; <b>CHECK-NEXT:</b> movhpd 12(%esp), %xmm0
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; <b>CHECK-NEXT:</b> movl 4(%esp), %eax
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; <b>CHECK-NEXT:</b> movapd %xmm0, (%eax)
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; <b>CHECK-NEXT:</b> ret
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}
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CHECK-NEXT: directives reject the input unless there is exactly one newline
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between it an the previous directive. A CHECK-NEXT cannot be the first
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directive in a file.
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=head2 The "CHECK-NOT:" directive
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The CHECK-NOT: directive is used to verify that a string doesn't occur
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between two matches (or before the first match, or after the last match). For
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example, to verify that a load is removed by a transformation, a test like this
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can be used:
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define i8 @coerce_offset0(i32 %V, i32* %P) {
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store i32 %V, i32* %P
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%P2 = bitcast i32* %P to i8*
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%P3 = getelementptr i8* %P2, i32 2
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%A = load i8* %P3
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ret i8 %A
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; <b>CHECK:</b> @coerce_offset0
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; <b>CHECK-NOT:</b> load
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; <b>CHECK:</b> ret i8
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}
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=head2 FileCheck Pattern Matching Syntax
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The CHECK: and CHECK-NOT: directives both take a pattern to match. For most
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uses of FileCheck, fixed string matching is perfectly sufficient. For some
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things, a more flexible form of matching is desired. To support this, FileCheck
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allows you to specify regular expressions in matching strings, surrounded by
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double braces: B<{{yourregex}}>. Because we want to use fixed string
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matching for a majority of what we do, FileCheck has been designed to support
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mixing and matching fixed string matching with regular expressions. This allows
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you to write things like this:
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; CHECK: movhpd <b>{{[0-9]+}}</b>(%esp), <b>{{%xmm[0-7]}}</b>
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In this case, any offset from the ESP register will be allowed, and any xmm
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register will be allowed.
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Because regular expressions are enclosed with double braces, they are
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visually distinct, and you don't need to use escape characters within the double
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braces like you would in C. In the rare case that you want to match double
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braces explicitly from the input, you can use something ugly like
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B<{{[{][{]}}> as your pattern.
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=head2 FileCheck Variables
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It is often useful to match a pattern and then verify that it occurs again
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later in the file. For codegen tests, this can be useful to allow any register,
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but verify that that register is used consistently later. To do this, FileCheck
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allows named variables to be defined and substituted into patterns. Here is a
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simple example:
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; CHECK: test5:
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; CHECK: notw <b>[[REGISTER:%[a-z]+]]</b>
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; CHECK: andw {{.*}}<b>[[REGISTER]]</b>
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The first check line matches a regex (<tt>%[a-z]+</tt>) and captures it into
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the variables "REGISTER". The second line verifies that whatever is in REGISTER
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occurs later in the file after an "andw". FileCheck variable references are
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always contained in <tt>[[ ]]</tt> pairs, are named, and their names can be
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formed with the regex "<tt>[a-zA-Z_][a-zA-Z0-9_]*</tt>". If a colon follows the
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name, then it is a definition of the variable, if not, it is a use.
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FileCheck variables can be defined multiple times, and uses always get the
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latest value. Note that variables are all read at the start of a "CHECK" line
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and are all defined at the end. This means that if you have something like
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"<tt>CHECK: [[XYZ:.*]]x[[XYZ]]<tt>" that the check line will read the previous
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value of the XYZ variable and define a new one after the match is performed. If
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you need to do something like this you can probably take advantage of the fact
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that FileCheck is not actually line-oriented when it matches, this allows you to
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define two separate CHECK lines that match on the same line.
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=head1 AUTHORS
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Maintained by The LLVM Team (L<http://llvm.org>).
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=cut
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