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
314
315
316
317
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
357
358
359
360
361
362
363
364
365
366
367
368
369
370
371
372
373
374
375
376
377
378
379
380
381
382
383
384
385
386
387
388
389
390
391
392
393
394
395
396
397
398
399
400
401
402
403
404
405
406
407
408
409
410
411
412
413
414
415
416
417
418
419
420
421
422
423
424
425
426
427
428
429
430
431
432
433
434
435
436
437
438
439
440
441
442
443
444
445
446
447
448
449
450
451
452
453
454
455
456
457
458
459
460
461
462
463
464
465
466
467
468
469
470
471
472
473
474
475
476
477
478
479
480
481
482
483
484
485
486
487
488
489
490
491
492
493
494
495
496
497
498
499
500
501
502
503
504
505
506
507
508
509
510
511
512
513
514
515
516
517
518
519
520
521
522
523
524
525
526
527
528
529
530
531
532
533
534
535
536
537
538
539
540
541
542
543
544
545
546
547
548
549
550
551
552
553
554
555
556
557
558
559
560
561
562
563
564
565
566
567
568
569
570
571
572
573
574
575
576
577
578
579
580
581
582
583
584
585
586
587
588
589
590
591
592
593
594
595
596
597
598
599
600
601
602
603
604
605
606
607
608
609
610
611
612
613
614
|
{-# LANGUAGE LambdaCase #-}
--------------------------------------------------------------------------------
-- | Pretty print LLVM IR Code.
--
module GHC.Llvm.Ppr (
-- * Top level LLVM objects.
ppLlvmModule,
ppLlvmComments,
ppLlvmComment,
ppLlvmGlobals,
ppLlvmGlobal,
ppLlvmAliases,
ppLlvmAlias,
ppLlvmMetas,
ppLlvmMeta,
ppLlvmFunctionDecls,
ppLlvmFunctionDecl,
ppLlvmFunctions,
ppLlvmFunction,
ppVar,
ppLit,
ppTypeLit,
ppName,
ppPlainName
) where
import GHC.Prelude
import GHC.Llvm.Syntax
import GHC.Llvm.MetaData
import GHC.Llvm.Types
import Data.Int
import Data.List ( intersperse )
import GHC.Utils.Outputable
import GHC.CmmToLlvm.Config
import GHC.Utils.Panic
import GHC.Types.Unique
--------------------------------------------------------------------------------
-- * Top Level Print functions
--------------------------------------------------------------------------------
-- | Print out a whole LLVM module.
ppLlvmModule :: LlvmCgConfig -> LlvmModule -> SDoc
ppLlvmModule opts (LlvmModule comments aliases meta globals decls funcs)
= ppLlvmComments comments $+$ newLine
$+$ ppLlvmAliases aliases $+$ newLine
$+$ ppLlvmMetas opts meta $+$ newLine
$+$ ppLlvmGlobals opts globals $+$ newLine
$+$ ppLlvmFunctionDecls decls $+$ newLine
$+$ ppLlvmFunctions opts funcs
-- | Print out a multi-line comment, can be inside a function or on its own
ppLlvmComments :: [LMString] -> SDoc
ppLlvmComments comments = vcat $ map ppLlvmComment comments
-- | Print out a comment, can be inside a function or on its own
ppLlvmComment :: LMString -> SDoc
ppLlvmComment com = semi <+> ftext com
-- | Print out a list of global mutable variable definitions
ppLlvmGlobals :: LlvmCgConfig -> [LMGlobal] -> SDoc
ppLlvmGlobals opts ls = vcat $ map (ppLlvmGlobal opts) ls
-- | Print out a global mutable variable definition
ppLlvmGlobal :: LlvmCgConfig -> LMGlobal -> SDoc
ppLlvmGlobal opts (LMGlobal var@(LMGlobalVar _ _ link x a c) dat) =
let sect = case x of
Just x' -> text ", section" <+> doubleQuotes (ftext x')
Nothing -> empty
align = case a of
Just a' -> text ", align" <+> int a'
Nothing -> empty
rhs = case dat of
Just stat -> pprSpecialStatic opts stat
Nothing -> ppr (pLower $ getVarType var)
-- Position of linkage is different for aliases.
const = case c of
Global -> "global"
Constant -> "constant"
Alias -> "alias"
in ppAssignment opts var $ ppr link <+> text const <+> rhs <> sect <> align
$+$ newLine
ppLlvmGlobal opts (LMGlobal var val) = pprPanic "ppLlvmGlobal" $
text "Non Global var ppr as global! " <> ppVar opts var <> text "=" <> ppr (fmap (ppStatic opts) val)
-- | Print out a list of LLVM type aliases.
ppLlvmAliases :: [LlvmAlias] -> SDoc
ppLlvmAliases tys = vcat $ map ppLlvmAlias tys
-- | Print out an LLVM type alias.
ppLlvmAlias :: LlvmAlias -> SDoc
ppLlvmAlias (name, ty)
= char '%' <> ftext name <+> equals <+> text "type" <+> ppr ty
-- | Print out a list of LLVM metadata.
ppLlvmMetas :: LlvmCgConfig -> [MetaDecl] -> SDoc
ppLlvmMetas opts metas = vcat $ map (ppLlvmMeta opts) metas
-- | Print out an LLVM metadata definition.
ppLlvmMeta :: LlvmCgConfig -> MetaDecl -> SDoc
ppLlvmMeta opts (MetaUnnamed n m)
= ppr n <+> equals <+> ppMetaExpr opts m
ppLlvmMeta _opts (MetaNamed n m)
= exclamation <> ftext n <+> equals <+> exclamation <> braces nodes
where
nodes = hcat $ intersperse comma $ map ppr m
-- | Print out a list of function definitions.
ppLlvmFunctions :: LlvmCgConfig -> LlvmFunctions -> SDoc
ppLlvmFunctions opts funcs = vcat $ map (ppLlvmFunction opts) funcs
-- | Print out a function definition.
ppLlvmFunction :: LlvmCgConfig -> LlvmFunction -> SDoc
ppLlvmFunction opts fun =
let attrDoc = ppSpaceJoin (funcAttrs fun)
secDoc = case funcSect fun of
Just s' -> text "section" <+> (doubleQuotes $ ftext s')
Nothing -> empty
prefixDoc = case funcPrefix fun of
Just v -> text "prefix" <+> ppStatic opts v
Nothing -> empty
in text "define" <+> ppLlvmFunctionHeader (funcDecl fun) (funcArgs fun)
<+> attrDoc <+> secDoc <+> prefixDoc
$+$ lbrace
$+$ ppLlvmBlocks opts (funcBody fun)
$+$ rbrace
$+$ newLine
$+$ newLine
-- | Print out a function definition header.
ppLlvmFunctionHeader :: LlvmFunctionDecl -> [LMString] -> SDoc
ppLlvmFunctionHeader (LlvmFunctionDecl n l c r varg p a) args
= let varg' = case varg of
VarArgs | null p -> text "..."
| otherwise -> text ", ..."
_otherwise -> text ""
align = case a of
Just a' -> text " align " <> ppr a'
Nothing -> empty
args' = map (\((ty,p),n) -> ppr ty <+> ppSpaceJoin p <+> char '%'
<> ftext n)
(zip p args)
in ppr l <+> ppr c <+> ppr r <+> char '@' <> ftext n <> lparen <>
(hsep $ punctuate comma args') <> varg' <> rparen <> align
-- | Print out a list of function declaration.
ppLlvmFunctionDecls :: LlvmFunctionDecls -> SDoc
ppLlvmFunctionDecls decs = vcat $ map ppLlvmFunctionDecl decs
-- | Print out a function declaration.
-- Declarations define the function type but don't define the actual body of
-- the function.
ppLlvmFunctionDecl :: LlvmFunctionDecl -> SDoc
ppLlvmFunctionDecl (LlvmFunctionDecl n l c r varg p a)
= let varg' = case varg of
VarArgs | null p -> text "..."
| otherwise -> text ", ..."
_otherwise -> text ""
align = case a of
Just a' -> text " align" <+> ppr a'
Nothing -> empty
args = hcat $ intersperse (comma <> space) $
map (\(t,a) -> ppr t <+> ppSpaceJoin a) p
in text "declare" <+> ppr l <+> ppr c <+> ppr r <+> char '@' <>
ftext n <> lparen <> args <> varg' <> rparen <> align $+$ newLine
-- | Print out a list of LLVM blocks.
ppLlvmBlocks :: LlvmCgConfig -> LlvmBlocks -> SDoc
ppLlvmBlocks opts blocks = vcat $ map (ppLlvmBlock opts) blocks
-- | Print out an LLVM block.
-- It must be part of a function definition.
ppLlvmBlock :: LlvmCgConfig -> LlvmBlock -> SDoc
ppLlvmBlock opts (LlvmBlock blockId stmts) =
let isLabel (MkLabel _) = True
isLabel _ = False
(block, rest) = break isLabel stmts
ppRest = case rest of
MkLabel id:xs -> ppLlvmBlock opts (LlvmBlock id xs)
_ -> empty
in ppLlvmBlockLabel blockId
$+$ (vcat $ map (ppLlvmStatement opts) block)
$+$ newLine
$+$ ppRest
-- | Print out an LLVM block label.
ppLlvmBlockLabel :: LlvmBlockId -> SDoc
ppLlvmBlockLabel id = pprUniqueAlways id <> colon
-- | Print out an LLVM statement.
ppLlvmStatement :: LlvmCgConfig -> LlvmStatement -> SDoc
ppLlvmStatement opts stmt =
let ind = (text " " <>)
in case stmt of
Assignment dst expr -> ind $ ppAssignment opts dst (ppLlvmExpression opts expr)
Fence st ord -> ind $ ppFence st ord
Branch target -> ind $ ppBranch opts target
BranchIf cond ifT ifF -> ind $ ppBranchIf opts cond ifT ifF
Comment comments -> ind $ ppLlvmComments comments
MkLabel label -> ppLlvmBlockLabel label
Store value ptr align
-> ind $ ppStore opts value ptr align
Switch scrut def tgs -> ind $ ppSwitch opts scrut def tgs
Return result -> ind $ ppReturn opts result
Expr expr -> ind $ ppLlvmExpression opts expr
Unreachable -> ind $ text "unreachable"
Nop -> empty
MetaStmt meta s -> ppMetaStatement opts meta s
-- | Print out an LLVM expression.
ppLlvmExpression :: LlvmCgConfig -> LlvmExpression -> SDoc
ppLlvmExpression opts expr
= case expr of
Alloca tp amount -> ppAlloca opts tp amount
LlvmOp op left right -> ppMachOp opts op left right
Call tp fp args attrs -> ppCall opts tp fp (map MetaVar args) attrs
CallM tp fp args attrs -> ppCall opts tp fp args attrs
Cast op from to -> ppCast opts op from to
Compare op left right -> ppCmpOp opts op left right
Extract vec idx -> ppExtract opts vec idx
ExtractV struct idx -> ppExtractV opts struct idx
Insert vec elt idx -> ppInsert opts vec elt idx
GetElemPtr inb ptr indexes -> ppGetElementPtr opts inb ptr indexes
Load ptr align -> ppLoad opts ptr align
ALoad ord st ptr -> ppALoad opts ord st ptr
Malloc tp amount -> ppMalloc opts tp amount
AtomicRMW aop tgt src ordering -> ppAtomicRMW opts aop tgt src ordering
CmpXChg addr old new s_ord f_ord -> ppCmpXChg opts addr old new s_ord f_ord
Phi tp predecessors -> ppPhi opts tp predecessors
Asm asm c ty v se sk -> ppAsm opts asm c ty v se sk
MExpr meta expr -> ppMetaAnnotExpr opts meta expr
ppMetaExpr :: LlvmCgConfig -> MetaExpr -> SDoc
ppMetaExpr opts = \case
MetaVar (LMLitVar (LMNullLit _)) -> text "null"
MetaStr s -> char '!' <> doubleQuotes (ftext s)
MetaNode n -> ppr n
MetaVar v -> ppVar opts v
MetaStruct es -> char '!' <> braces (ppCommaJoin (map (ppMetaExpr opts) es))
--------------------------------------------------------------------------------
-- * Individual print functions
--------------------------------------------------------------------------------
-- | Should always be a function pointer. So a global var of function type
-- (since globals are always pointers) or a local var of pointer function type.
ppCall :: LlvmCgConfig -> LlvmCallType -> LlvmVar -> [MetaExpr] -> [LlvmFuncAttr] -> SDoc
ppCall opts ct fptr args attrs = case fptr of
--
-- if local var function pointer, unwrap
LMLocalVar _ (LMPointer (LMFunction d)) -> ppCall' d
-- should be function type otherwise
LMGlobalVar _ (LMFunction d) _ _ _ _ -> ppCall' d
-- not pointer or function, so error
_other -> error $ "ppCall called with non LMFunction type!\nMust be "
++ " called with either global var of function type or "
++ "local var of pointer function type."
where
ppCall' (LlvmFunctionDecl _ _ cc ret argTy params _) =
let tc = if ct == TailCall then text "tail " else empty
ppValues = ppCallParams opts (map snd params) args
ppArgTy = (ppCommaJoin $ map (ppr . fst) params) <>
(case argTy of
VarArgs -> text ", ..."
FixedArgs -> empty)
fnty = space <> lparen <> ppArgTy <> rparen
attrDoc = ppSpaceJoin attrs
in tc <> text "call" <+> ppr cc <+> ppr ret
<> fnty <+> ppName opts fptr <> lparen <+> ppValues
<+> rparen <+> attrDoc
ppCallParams :: LlvmCgConfig -> [[LlvmParamAttr]] -> [MetaExpr] -> SDoc
ppCallParams opts attrs args = hsep $ punctuate comma $ zipWith ppCallMetaExpr attrs args
where
-- Metadata needs to be marked as having the `metadata` type when used
-- in a call argument
ppCallMetaExpr attrs (MetaVar v) = ppVar' attrs opts v
ppCallMetaExpr _ v = text "metadata" <+> ppMetaExpr opts v
ppMachOp :: LlvmCgConfig -> LlvmMachOp -> LlvmVar -> LlvmVar -> SDoc
ppMachOp opts op left right =
(ppr op) <+> (ppr (getVarType left)) <+> ppName opts left
<> comma <+> ppName opts right
ppCmpOp :: LlvmCgConfig -> LlvmCmpOp -> LlvmVar -> LlvmVar -> SDoc
ppCmpOp opts op left right =
let cmpOp
| isInt (getVarType left) && isInt (getVarType right) = text "icmp"
| isFloat (getVarType left) && isFloat (getVarType right) = text "fcmp"
| otherwise = text "icmp" -- Just continue as its much easier to debug
{-
| otherwise = error ("can't compare different types, left = "
++ (show $ getVarType left) ++ ", right = "
++ (show $ getVarType right))
-}
in cmpOp <+> ppr op <+> ppr (getVarType left)
<+> ppName opts left <> comma <+> ppName opts right
ppAssignment :: LlvmCgConfig -> LlvmVar -> SDoc -> SDoc
ppAssignment opts var expr = ppName opts var <+> equals <+> expr
ppFence :: Bool -> LlvmSyncOrdering -> SDoc
ppFence st ord =
let singleThread = case st of True -> text "singlethread"
False -> empty
in text "fence" <+> singleThread <+> ppSyncOrdering ord
ppSyncOrdering :: LlvmSyncOrdering -> SDoc
ppSyncOrdering SyncUnord = text "unordered"
ppSyncOrdering SyncMonotonic = text "monotonic"
ppSyncOrdering SyncAcquire = text "acquire"
ppSyncOrdering SyncRelease = text "release"
ppSyncOrdering SyncAcqRel = text "acq_rel"
ppSyncOrdering SyncSeqCst = text "seq_cst"
ppAtomicOp :: LlvmAtomicOp -> SDoc
ppAtomicOp LAO_Xchg = text "xchg"
ppAtomicOp LAO_Add = text "add"
ppAtomicOp LAO_Sub = text "sub"
ppAtomicOp LAO_And = text "and"
ppAtomicOp LAO_Nand = text "nand"
ppAtomicOp LAO_Or = text "or"
ppAtomicOp LAO_Xor = text "xor"
ppAtomicOp LAO_Max = text "max"
ppAtomicOp LAO_Min = text "min"
ppAtomicOp LAO_Umax = text "umax"
ppAtomicOp LAO_Umin = text "umin"
ppAtomicRMW :: LlvmCgConfig -> LlvmAtomicOp -> LlvmVar -> LlvmVar -> LlvmSyncOrdering -> SDoc
ppAtomicRMW opts aop tgt src ordering =
text "atomicrmw" <+> ppAtomicOp aop <+> ppVar opts tgt <> comma
<+> ppVar opts src <+> ppSyncOrdering ordering
ppCmpXChg :: LlvmCgConfig -> LlvmVar -> LlvmVar -> LlvmVar
-> LlvmSyncOrdering -> LlvmSyncOrdering -> SDoc
ppCmpXChg opts addr old new s_ord f_ord =
text "cmpxchg" <+> ppVar opts addr <> comma <+> ppVar opts old <> comma <+> ppVar opts new
<+> ppSyncOrdering s_ord <+> ppSyncOrdering f_ord
ppLoad :: LlvmCgConfig -> LlvmVar -> LMAlign -> SDoc
ppLoad opts var alignment =
text "load" <+> ppr derefType <> comma <+> ppVar opts var <> align
where
derefType = pLower $ getVarType var
align =
case alignment of
Just n -> text ", align" <+> ppr n
Nothing -> empty
ppALoad :: LlvmCgConfig -> LlvmSyncOrdering -> SingleThreaded -> LlvmVar -> SDoc
ppALoad opts ord st var =
let alignment = llvmWidthInBits (llvmCgPlatform opts) (getVarType var) `quot` 8
align = text ", align" <+> ppr alignment
sThreaded | st = text " singlethread"
| otherwise = empty
derefType = pLower $ getVarType var
in text "load atomic" <+> ppr derefType <> comma <+> ppVar opts var <> sThreaded
<+> ppSyncOrdering ord <> align
ppStore :: LlvmCgConfig -> LlvmVar -> LlvmVar -> LMAlign -> SDoc
ppStore opts val dst alignment =
text "store" <+> ppVar opts val <> comma <+> ppVar opts dst <> align
where
align =
case alignment of
Just n -> text ", align" <+> ppr n
Nothing -> empty
ppCast :: LlvmCgConfig -> LlvmCastOp -> LlvmVar -> LlvmType -> SDoc
ppCast opts op from to
= ppr op
<+> ppr (getVarType from) <+> ppName opts from
<+> text "to"
<+> ppr to
ppMalloc :: LlvmCgConfig -> LlvmType -> Int -> SDoc
ppMalloc opts tp amount =
let amount' = LMLitVar $ LMIntLit (toInteger amount) i32
in text "malloc" <+> ppr tp <> comma <+> ppVar opts amount'
ppAlloca :: LlvmCgConfig -> LlvmType -> Int -> SDoc
ppAlloca opts tp amount =
let amount' = LMLitVar $ LMIntLit (toInteger amount) i32
in text "alloca" <+> ppr tp <> comma <+> ppVar opts amount'
ppGetElementPtr :: LlvmCgConfig -> Bool -> LlvmVar -> [LlvmVar] -> SDoc
ppGetElementPtr opts inb ptr idx =
let indexes = comma <+> ppCommaJoin (map (ppVar opts) idx)
inbound = if inb then text "inbounds" else empty
derefType = pLower $ getVarType ptr
in text "getelementptr" <+> inbound <+> ppr derefType <> comma <+> ppVar opts ptr
<> indexes
ppReturn :: LlvmCgConfig -> Maybe LlvmVar -> SDoc
ppReturn opts (Just var) = text "ret" <+> ppVar opts var
ppReturn _ Nothing = text "ret" <+> ppr LMVoid
ppBranch :: LlvmCgConfig -> LlvmVar -> SDoc
ppBranch opts var = text "br" <+> ppVar opts var
ppBranchIf :: LlvmCgConfig -> LlvmVar -> LlvmVar -> LlvmVar -> SDoc
ppBranchIf opts cond trueT falseT
= text "br" <+> ppVar opts cond <> comma <+> ppVar opts trueT <> comma <+> ppVar opts falseT
ppPhi :: LlvmCgConfig -> LlvmType -> [(LlvmVar,LlvmVar)] -> SDoc
ppPhi opts tp preds =
let ppPreds (val, label) = brackets $ ppName opts val <> comma <+> ppName opts label
in text "phi" <+> ppr tp <+> hsep (punctuate comma $ map ppPreds preds)
ppSwitch :: LlvmCgConfig -> LlvmVar -> LlvmVar -> [(LlvmVar,LlvmVar)] -> SDoc
ppSwitch opts scrut dflt targets =
let ppTarget (val, lab) = ppVar opts val <> comma <+> ppVar opts lab
ppTargets xs = brackets $ vcat (map ppTarget xs)
in text "switch" <+> ppVar opts scrut <> comma <+> ppVar opts dflt
<+> ppTargets targets
ppAsm :: LlvmCgConfig -> LMString -> LMString -> LlvmType -> [LlvmVar] -> Bool -> Bool -> SDoc
ppAsm opts asm constraints rty vars sideeffect alignstack =
let asm' = doubleQuotes $ ftext asm
cons = doubleQuotes $ ftext constraints
rty' = ppr rty
vars' = lparen <+> ppCommaJoin (map (ppVar opts) vars) <+> rparen
side = if sideeffect then text "sideeffect" else empty
align = if alignstack then text "alignstack" else empty
in text "call" <+> rty' <+> text "asm" <+> side <+> align <+> asm' <> comma
<+> cons <> vars'
ppExtract :: LlvmCgConfig -> LlvmVar -> LlvmVar -> SDoc
ppExtract opts vec idx =
text "extractelement"
<+> ppr (getVarType vec) <+> ppName opts vec <> comma
<+> ppVar opts idx
ppExtractV :: LlvmCgConfig -> LlvmVar -> Int -> SDoc
ppExtractV opts struct idx =
text "extractvalue"
<+> ppr (getVarType struct) <+> ppName opts struct <> comma
<+> ppr idx
ppInsert :: LlvmCgConfig -> LlvmVar -> LlvmVar -> LlvmVar -> SDoc
ppInsert opts vec elt idx =
text "insertelement"
<+> ppr (getVarType vec) <+> ppName opts vec <> comma
<+> ppr (getVarType elt) <+> ppName opts elt <> comma
<+> ppVar opts idx
ppMetaStatement :: LlvmCgConfig -> [MetaAnnot] -> LlvmStatement -> SDoc
ppMetaStatement opts meta stmt =
ppLlvmStatement opts stmt <> ppMetaAnnots opts meta
ppMetaAnnotExpr :: LlvmCgConfig -> [MetaAnnot] -> LlvmExpression -> SDoc
ppMetaAnnotExpr opts meta expr =
ppLlvmExpression opts expr <> ppMetaAnnots opts meta
ppMetaAnnots :: LlvmCgConfig -> [MetaAnnot] -> SDoc
ppMetaAnnots opts meta = hcat $ map ppMeta meta
where
ppMeta (MetaAnnot name e)
= comma <+> exclamation <> ftext name <+>
case e of
MetaNode n -> ppr n
MetaStruct ms -> exclamation <> braces (ppCommaJoin (map (ppMetaExpr opts) ms))
other -> exclamation <> braces (ppMetaExpr opts other) -- possible?
-- | Return the variable name or value of the 'LlvmVar'
-- in Llvm IR textual representation (e.g. @\@x@, @%y@ or @42@).
ppName :: LlvmCgConfig -> LlvmVar -> SDoc
ppName opts v = case v of
LMGlobalVar {} -> char '@' <> ppPlainName opts v
LMLocalVar {} -> char '%' <> ppPlainName opts v
LMNLocalVar {} -> char '%' <> ppPlainName opts v
LMLitVar {} -> ppPlainName opts v
-- | Return the variable name or value of the 'LlvmVar'
-- in a plain textual representation (e.g. @x@, @y@ or @42@).
ppPlainName :: LlvmCgConfig -> LlvmVar -> SDoc
ppPlainName opts v = case v of
(LMGlobalVar x _ _ _ _ _) -> ftext x
(LMLocalVar x LMLabel ) -> pprUniqueAlways x
(LMLocalVar x _ ) -> char 'l' <> pprUniqueAlways x
(LMNLocalVar x _ ) -> ftext x
(LMLitVar x ) -> ppLit opts x
-- | Print a literal value. No type.
ppLit :: LlvmCgConfig -> LlvmLit -> SDoc
ppLit opts l = case l of
(LMIntLit i (LMInt 32)) -> ppr (fromInteger i :: Int32)
(LMIntLit i (LMInt 64)) -> ppr (fromInteger i :: Int64)
(LMIntLit i _ ) -> ppr ((fromInteger i)::Int)
(LMFloatLit r LMFloat ) -> ppFloat (llvmCgPlatform opts) $ narrowFp r
(LMFloatLit r LMDouble) -> ppDouble (llvmCgPlatform opts) r
f@(LMFloatLit _ _) -> pprPanic "ppLit" (text "Can't print this float literal: " <> ppTypeLit opts f)
(LMVectorLit ls ) -> char '<' <+> ppCommaJoin (map (ppTypeLit opts) ls) <+> char '>'
(LMNullLit _ ) -> text "null"
-- #11487 was an issue where we passed undef for some arguments
-- that were actually live. By chance the registers holding those
-- arguments usually happened to have the right values anyways, but
-- that was not guaranteed. To find such bugs reliably, we set the
-- flag below when validating, which replaces undef literals (at
-- common types) with values that are likely to cause a crash or test
-- failure.
(LMUndefLit t )
| llvmCgFillUndefWithGarbage opts
, Just lit <- garbageLit t -> ppLit opts lit
| otherwise -> text "undef"
ppVar :: LlvmCgConfig -> LlvmVar -> SDoc
ppVar = ppVar' []
ppVar' :: [LlvmParamAttr] -> LlvmCgConfig -> LlvmVar -> SDoc
ppVar' attrs opts v = case v of
LMLitVar x -> ppTypeLit' attrs opts x
x -> ppr (getVarType x) <+> ppSpaceJoin attrs <+> ppName opts x
ppTypeLit :: LlvmCgConfig -> LlvmLit -> SDoc
ppTypeLit = ppTypeLit' []
ppTypeLit' :: [LlvmParamAttr] -> LlvmCgConfig -> LlvmLit -> SDoc
ppTypeLit' attrs opts l = case l of
LMVectorLit {} -> ppLit opts l
_ -> ppr (getLitType l) <+> ppSpaceJoin attrs <+> ppLit opts l
ppStatic :: LlvmCgConfig -> LlvmStatic -> SDoc
ppStatic opts st = case st of
LMComment s -> text "; " <> ftext s
LMStaticLit l -> ppTypeLit opts l
LMUninitType t -> ppr t <> text " undef"
LMStaticStr s t -> ppr t <> text " c\"" <> ftext s <> text "\\00\""
LMStaticArray d t -> ppr t <> text " [" <> ppCommaJoin (map (ppStatic opts) d) <> char ']'
LMStaticStruc d t -> ppr t <> text "<{" <> ppCommaJoin (map (ppStatic opts) d) <> text "}>"
LMStaticStrucU d t -> ppr t <> text "{" <> ppCommaJoin (map (ppStatic opts) d) <> text "}"
LMStaticPointer v -> ppVar opts v
LMTrunc v t -> ppr t <> text " trunc (" <> ppStatic opts v <> text " to " <> ppr t <> char ')'
LMBitc v t -> ppr t <> text " bitcast (" <> ppStatic opts v <> text " to " <> ppr t <> char ')'
LMPtoI v t -> ppr t <> text " ptrtoint (" <> ppStatic opts v <> text " to " <> ppr t <> char ')'
LMAdd s1 s2 -> pprStaticArith opts s1 s2 (text "add") (text "fadd") (text "LMAdd")
LMSub s1 s2 -> pprStaticArith opts s1 s2 (text "sub") (text "fsub") (text "LMSub")
pprSpecialStatic :: LlvmCgConfig -> LlvmStatic -> SDoc
pprSpecialStatic opts stat = case stat of
LMBitc v t -> ppr (pLower t)
<> text ", bitcast ("
<> ppStatic opts v <> text " to " <> ppr t
<> char ')'
LMStaticPointer x -> ppr (pLower $ getVarType x)
<> comma <+> ppStatic opts stat
_ -> ppStatic opts stat
pprStaticArith :: LlvmCgConfig -> LlvmStatic -> LlvmStatic -> SDoc -> SDoc
-> SDoc -> SDoc
pprStaticArith opts s1 s2 int_op float_op op_name =
let ty1 = getStatType s1
op = if isFloat ty1 then float_op else int_op
in if ty1 == getStatType s2
then ppr ty1 <+> op <+> lparen <> ppStatic opts s1 <> comma <> ppStatic opts s2 <> rparen
else pprPanic "pprStaticArith" $
op_name <> text " with different types! s1: " <> ppStatic opts s1
<> text", s2: " <> ppStatic opts s2
--------------------------------------------------------------------------------
-- * Misc functions
--------------------------------------------------------------------------------
-- | Blank line.
newLine :: SDoc
newLine = empty
-- | Exclamation point.
exclamation :: SDoc
exclamation = char '!'
|