1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
301
302
303
304
305
306
307
308
309
310
311
312
313
|
# This procedure executes one line of a test case's execution script.
proc execOneLine { test PRS outcome lineno line } {
set status 0
set resultmsg ""
set retval [ catch { eval exec -keepnewline -- $line } errmsg ]
if { $retval != 0 } {
set code [lindex $::errorCode 0]
set lineno [expr $lineno + 1]
if { $PRS != ""} {
set PRS " for $PRS"
}
set errmsg " at line $lineno\nwhile running: $line\n$errmsg"
switch "$code" {
CHILDSTATUS {
set status [lindex $::errorCode 2]
if { $status != 0 } {
set resultmsg "$test$PRS\nFailed with exit($status)$errmsg"
}
}
CHILDKILLED {
set signal [lindex $::errorCode 2]
set resultmsg "$test$PRS\nFailed with signal($signal)$errmsg"
}
CHILDSUSP {
set signal [lindex $::errorCode 2]
set resultmsg "$test$PRS\nFailed with suspend($signal)$errmsg"
}
POSIX {
set posixNum [lindex $::errorCode 1]
set posixMsg [lindex $::errorCode 2]
set resultmsg "$test$PRS\nFailed with posix($posixNum,$posixMsg)$errmsg"
}
NONE {
# Any other error such as stderr output of a program, or syntax error in
# the RUN line.
set resultmsg "$test$PRS\nFailed with unknown error (or has stderr output)$errmsg"
}
default {
set resultmsg "$test$PRS\nFailed with unknown error$errmsg"
}
}
}
return $resultmsg
}
# This procedure performs variable substitutions on the RUN: lines of a test
# cases.
proc substitute { line test tmpFile } {
global srcroot objroot srcdir objdir subdir target_triplet
global llvmgcc llvmgxx emitir ocamlopt
global gccpath gxxpath compile_c compile_cxx link shlibext llvmlibsdir
global llvmdsymutil valgrind grep gas bugpoint_topts
set path [file join $srcdir $subdir]
# Substitute all Tcl variables.
set new_line [subst $line ]
#replace %% with _#MARKER#_ to make the replacement of %% more predictable
regsub -all {%%} $new_line {_#MARKER#_} new_line
#replace %llvmgcc_only with actual path to llvmgcc
regsub -all {%llvmgcc_only} $new_line "$llvmgcc" new_line
#replace %llvmgcc with actual path to llvmgcc
regsub -all {%llvmgcc} $new_line "$llvmgcc $emitir -w" new_line
#replace %llvmgxx with actual path to llvmg++
regsub -all {%llvmgxx} $new_line "$llvmgxx $emitir -w" new_line
#replace %compile_cxx with C++ compilation command
regsub -all {%compile_cxx} $new_line "$compile_cxx" new_line
#replace %compile_c with C compilation command
regsub -all {%compile_c} $new_line "$compile_c" new_line
#replace %link with C++ link command
regsub -all {%link} $new_line "$link" new_line
#replace %shlibext with shared library extension
regsub -all {%shlibext} $new_line "$shlibext" new_line
#replace %ocamlopt with ocaml compiler command
regsub -all {%ocamlopt} $new_line "$ocamlopt" new_line
#replace %llvmdsymutil with dsymutil command
regsub -all {%llvmdsymutil} $new_line "$llvmdsymutil" new_line
#replace %llvmlibsdir with configure library directory
regsub -all {%llvmlibsdir} $new_line "$llvmlibsdir" new_line
#replace %bugpoint_topts with actual bugpoint target options
regsub -all {%bugpoint_topts} $new_line "$bugpoint_topts" new_line
#replace %p with path to source,
regsub -all {%p} $new_line [file join $srcdir $subdir] new_line
#replace %s with filename
regsub -all {%s} $new_line $test new_line
#replace %t with temp filenames
regsub -all {%t} $new_line $tmpFile new_line
#replace %abs_tmp with absolute temp filenames
regsub -all {%abs_tmp} $new_line [file join [pwd] $tmpFile] new_line
#replace _#MARKER#_ with %
regsub -all {_#MARKER#_} $new_line % new_line
#replace grep with GNU grep
regsub -all { grep } $new_line " $grep " new_line
#replace as with GNU as
regsub -all {\| as } $new_line "| $gas " new_line
#valgind related stuff
# regsub -all {bugpoint } $new_line "$valgrind bugpoint " new_line
regsub -all {llc } $new_line "$valgrind llc " new_line
regsub -all {lli } $new_line "$valgrind lli " new_line
regsub -all {llvm-ar } $new_line "$valgrind llvm-ar " new_line
regsub -all {llvm-as } $new_line "$valgrind llvm-as " new_line
regsub -all {llvm-bcanalyzer } $new_line "$valgrind llvm-bcanalyzer " new_line
regsub -all {llvm-dis } $new_line "$valgrind llvm-dis " new_line
regsub -all {llvm-extract } $new_line "$valgrind llvm-extract " new_line
regsub -all {llvm-ld } $new_line "$valgrind llvm-ld " new_line
regsub -all {llvm-link } $new_line "$valgrind llvm-link " new_line
regsub -all {llvm-nm } $new_line "$valgrind llvm-nm " new_line
regsub -all {llvm-prof } $new_line "$valgrind llvm-prof " new_line
regsub -all {llvm-ranlib } $new_line "$valgrind llvm-ranlib " new_line
regsub -all {([^a-zA-Z_-])opt } $new_line "\\1$valgrind opt " new_line
regsub -all {^opt } $new_line "$valgrind opt " new_line
regsub -all {tblgen } $new_line "$valgrind tblgen " new_line
regsub -all "not $valgrind " $new_line "$valgrind not " new_line
return $new_line
}
# This procedure runs the set of tests for the test_source_files array.
proc RunLLVMTests { test_source_files } {
global srcroot objroot srcdir objdir subdir target_triplet
set timeout 60
set path [file join $objdir $subdir]
#Make Output Directory if it does not exist already
if { [file exists path] } {
cd $path
} else {
file mkdir $path
cd $path
}
file mkdir Output
cd Output
foreach test $test_source_files {
#Should figure out best way to set the timeout
#set timeout 40
set filename [file tail $test]
verbose "ABOUT TO RUN: $filename" 2
set outcome PASS
set tmpFile "$filename.tmp"
# Mark that it should not be XFAIL for this target.
set targetPASS 0
#set hasRunline bool to check if testcase has a runline
set numLines 0
# Open the test file and start reading lines
set testFileId [ open $test r]
set runline ""
set PRNUMS ""
foreach line [split [read $testFileId] \n] {
# if its the END. line then stop parsing (optimization for big files)
if {[regexp {END.[[:space:]]*$} $line match endofscript]} {
break
# if the line is continued, concatenate and continue the loop
} elseif {[regexp {RUN: *(.+)(\\)$} $line match oneline suffix]} {
set runline "$runline$oneline "
# if its a terminating RUN: line then do substitution on the whole line
# and then save the line.
} elseif {[regexp {RUN: *(.+)$} $line match oneline suffix]} {
set runline "$runline$oneline"
set runline [ substitute $runline $test $tmpFile ]
set lines($numLines) $runline
set numLines [expr $numLines + 1]
set runline ""
# if its an PR line, save the problem report number
} elseif {[regexp {PR([0-9]+)} $line match prnum]} {
if {$PRNUMS == ""} {
set PRNUMS "PR$prnum"
} else {
set PRNUMS "$PRNUMS,$prnum"
}
# if its an XFAIL line, see if we should be XFAILing or not.
} elseif {[regexp {XFAIL:[ *](.+)} $line match targets]} {
set targets
#split up target if more then 1 specified
foreach target [split $targets ,] {
if { $target == "*" } {
if {$targetPASS != 1} {
set outcome XFAIL
}
} elseif { [regexp $target $target_triplet match] } {
if {$targetPASS != 1} {
set outcome XFAIL
}
}
}
} elseif {[regexp {XTARGET:[ *](.+)} $line match targets]} {
set targets
#split up target if more then 1 specified
foreach target [split $targets ,] {
if { [regexp {\*} $target match] } {
set targetPASS 1
set outcome PASS
} elseif { [regexp $target $target_triplet match] } {
set targetPASS 1
set outcome PASS
}
}
}
}
# Done reading the script
close $testFileId
if { $numLines == 0 } {
fail "$test: \nDoes not have a RUN line\n"
} else {
set failed 0
for { set i 0 } { $i < $numLines } { set i [ expr $i + 1 ] } {
regsub ^.*RUN:(.*) $lines($i) \1 theLine
set resultmsg [execOneLine $test $PRNUMS $outcome $i $theLine ]
if { $resultmsg != "" } {
if { $outcome == "XFAIL" } {
xfail "$resultmsg"
} else {
fail "$resultmsg"
}
set failed 1
break
}
}
if { $failed } {
continue
} else {
if { $PRNUMS != "" } {
set PRNUMS " for $PRNUMS"
}
if { $outcome == "XFAIL" } {
xpass "$test$PRNUMS"
} else {
pass "$test$PRNUMS"
}
}
}
}
}
# This procedure provides an interface to check the LLVMGCC_LANGS makefile
# variable to see if llvm-gcc supports compilation of a particular language.
proc llvm_gcc_supports { lang } {
global llvmgcc llvmgcc_langs
# validate the language choices and determine the name of the compiler
# component responsible for determining if the compiler has been built.
switch "$lang" {
ada { set file gnat1 }
c { set file cc1 }
c++ { set file cc1plus }
objc { set file cc1obj }
obj-c++ { set file cc1objplus }
fortran { set file f951 }
default { return 0 }
}
foreach supported_lang [split "$llvmgcc_langs" ,] {
if { "$lang" == "$supported_lang" } {
# FIXME: Knowing it is configured is not enough. We should do two more
# checks here. First, we need to run llvm-gcc -print-prog-name=$file to
# get the path to the compiler. If we don't get a path, the language isn't
# properly configured or built. If we do get a path, we should check to
# make sure that it is executable and perhaps even try executing it.
return 1;
}
}
return 0;
}
# This procedure provides an interface to check the TARGETS_TO_BUILD makefile
# variable to see if a particular target has been configured to build. This
# helps avoid running tests for targets that aren't available.
proc llvm_supports_target { tgtName } {
global TARGETS_TO_BUILD
foreach target [split $TARGETS_TO_BUILD] {
if { [regexp $tgtName $target match] } {
return 1
}
}
return 0
}
proc llvm_supports_darwin_and_target { tgtName } {
global target_triplet
if { [ llvm_supports_target $tgtName ] } {
if { [regexp darwin $target_triplet match] } {
return 1
}
}
return 0
}
# This procedure provides an interface to check the BINDINGS_TO_BUILD makefile
# variable to see if a particular binding has been configured to build.
proc llvm_supports_binding { name } {
global llvm_bindings
foreach item [split $llvm_bindings] {
if { [regexp $name $item match] } {
return 1
}
}
return 0
}
|