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// Copyright 2019 The CC Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
//TODO https://todo.sr.ht/~mcf/cc-issues/34
//TODO http://mcpp.sourceforge.net/ "Provides a validation suite to test C/C++ preprocessor's conformance and quality comprehensively."
//go:generate rm -f lexer.go
//go:generate golex -o lexer.go lexer.l
//go:generate rm -f ast.go
//go:generate yy -o /dev/null -position -astImport "\"fmt\"\n\n\"modernc.org/token\"" -prettyString PrettyString -kind Case -noListKind -noPrivateHelpers -forceOptPos parser.yy
//go:generate stringer -output stringer.go -linecomment -type=Kind,Linkage
//go:generate sh -c "go test -run ^Example |fe"
// Package cc is a C99 compiler front end (Work in progress).
//
// Installation
//
// To install/update cc/v3 invoke:
//
// $ go get [-u] modernc.org/cc/v3
//
// Online documentation
//
// See https://godoc.org/modernc.org/cc/v3.
//
// Status
//
// Most of the functionality is now working.
//
// Supported platforms
//
// The code is known to work on Darwin, Linux and Windows, but the supported
// features may vary.
//
// Links
//
// Referenced from elsewhere:
//
// [0]: http://www.open-std.org/jtc1/sc22/wg14/www/docs/n1256.pdf
// [1]: https://www.spinellis.gr/blog/20060626/cpp.algo.pdf
// [2]: http://www.open-std.org/jtc1/sc22/wg14/www/docs/n1570.pdf
// [3]: http://gallium.inria.fr/~fpottier/publis/jourdan-fpottier-2016.pdf
// [4]: https://gcc.gnu.org/onlinedocs/gcc-8.3.0/gcc/Attribute-Syntax.html#Attribute-Syntax
package cc // import "modernc.org/cc/v3"
import (
"fmt"
goscanner "go/scanner"
gotoken "go/token"
"hash/maphash"
"io"
"math"
"os"
"os/exec"
"reflect"
"regexp"
"runtime"
"sort"
"strconv"
"strings"
"sync"
"sync/atomic"
"modernc.org/strutil"
"modernc.org/token"
)
const (
scopeParent StringID = - iota - 1
scopeSkip
)
var (
_ Pragma = ( * pragma ) ( nil )
cache = newPPCache ( )
dict = newDictionary ( )
dictStrings [ math . MaxUint8 + 1 ] string
noPos token . Position
debugIncludePaths bool
debugWorkingDir bool
isTesting bool
isTestingMingw bool
idPtrdiffT = dict . sid ( "ptrdiff_t" )
idSizeT = dict . sid ( "size_t" )
idWCharT = dict . sid ( "wchar_t" )
token4Pool = sync . Pool { New : func ( ) interface { } { r := make ( [ ] token4 , 0 ) ; return & r } } //DONE benchmrk tuned capacity
tokenPool = sync . Pool { New : func ( ) interface { } { r := make ( [ ] Token , 0 ) ; return & r } } //DONE benchmrk tuned capacity
printHooks = strutil . PrettyPrintHooks {
reflect . TypeOf ( Token { } ) : func ( f strutil . Formatter , v interface { } , prefix , suffix string ) {
t := v . ( Token )
if ( t == Token { } ) {
return
}
f . Format ( prefix )
r := t . Rune
if p := t . Position ( ) ; p . IsValid ( ) {
f . Format ( "%v: " , p )
}
s := tokName ( r )
if x := s [ 0 ] ; x >= '0' && x <= '9' {
s = strconv . QuoteRune ( r )
}
f . Format ( "%s" , s )
if s := t . Value . String ( ) ; len ( s ) != 0 {
f . Format ( " %q" , s )
}
f . Format ( suffix )
} ,
reflect . TypeOf ( ( * operand ) ( nil ) ) : func ( f strutil . Formatter , v interface { } , prefix , suffix string ) {
op := v . ( * operand )
f . Format ( prefix )
f . Format ( "[%v %T(%[2]v)]" , op . Type ( ) , op . Value ( ) )
f . Format ( suffix )
} ,
}
)
func todo ( s string , args ... interface { } ) string { //TODO-
switch {
case s == "" :
s = fmt . Sprintf ( strings . Repeat ( "%v " , len ( args ) ) , args ... )
default :
s = fmt . Sprintf ( s , args ... )
}
pc , fn , fl , _ := runtime . Caller ( 1 )
f := runtime . FuncForPC ( pc )
var fns string
if f != nil {
fns = f . Name ( )
if x := strings . LastIndex ( fns , "." ) ; x > 0 {
fns = fns [ x + 1 : ]
}
}
r := fmt . Sprintf ( "%s:%d:%s: TODOTODO %s" , fn , fl , fns , s ) //TODOOK
fmt . Fprintf ( os . Stdout , "%s\n" , r )
os . Stdout . Sync ( )
return r
}
func trc ( s string , args ... interface { } ) string { //TODO-
switch {
case s == "" :
s = fmt . Sprintf ( strings . Repeat ( "%v " , len ( args ) ) , args ... )
default :
s = fmt . Sprintf ( s , args ... )
}
pc , fn , fl , _ := runtime . Caller ( 1 )
f := runtime . FuncForPC ( pc )
var fns string
if f != nil {
fns = f . Name ( )
if x := strings . LastIndex ( fns , "." ) ; x > 0 {
fns = fns [ x + 1 : ]
}
}
r := fmt . Sprintf ( "%s:%d:%s: TRC %s" , fn , fl , fns , s )
fmt . Fprintf ( os . Stdout , "%s\n" , r )
os . Stdout . Sync ( )
return r
}
func origin ( skip int ) string {
pc , fn , fl , _ := runtime . Caller ( skip )
f := runtime . FuncForPC ( pc )
var fns string
if f != nil {
fns = f . Name ( )
if x := strings . LastIndex ( fns , "." ) ; x > 0 {
fns = fns [ x + 1 : ]
}
}
return fmt . Sprintf ( "%s:%d:%s" , fn , fl , fns )
}
// String returns a StringID for a given value.
func String ( s string ) StringID {
return dict . sid ( s )
}
// Linkage represents identifier linkage.
//
// [0]6.2.2: An identifier declared in different scopes or in the same scope
// more than once can be made to refer to the same object or function by a
// process called linkage. There are three kinds of linkage: External,
// Internal, and None.
type Linkage int
// StorageClass determines storage duration.
//
// [0]6.2.4: An object has a storage duration that determines its lifetime.
// There are three storage durations: Static, Automatic, and Allocated.
type StorageClass int
// Pragma defines behavior of the object passed to Config.PragmaHandler.
type Pragma interface {
Error ( msg string , args ... interface { } ) // Report error.
MaxAligment ( ) int // Returns the current maximum alignment. May return zero.
MaxInitialAligment ( ) int // Support #pragma pack(). Returns the maximum alignment in effect at start. May return zero.
PopMacro ( string )
PushMacro ( string )
SetAlignment ( n int ) // Support #pragma pack(n)
}
type pragma struct {
tok cppToken
c * cpp
}
func ( p * pragma ) Error ( msg string , args ... interface { } ) { p . c . err ( p . tok , msg , args ... ) }
func ( p * pragma ) MaxAligment ( ) int { return p . c . ctx . maxAlign }
func ( p * pragma ) MaxInitialAligment ( ) int { return p . c . ctx . maxAlign0 }
func ( p * pragma ) SetAlignment ( n int ) {
if n <= 0 {
p . Error ( "%T.SetAlignment(%d): invalid argument" , p , n )
return
}
p . c . ctx . maxAlign = n
}
func ( p * pragma ) PushMacro ( nm string ) {
id := dict . sid ( nm )
if p . c . macroStack == nil {
p . c . macroStack = map [ StringID ] [ ] * Macro { }
}
if m := p . c . macros [ id ] ; m != nil {
p . c . macroStack [ id ] = append ( p . c . macroStack [ id ] , p . c . macros [ id ] )
}
}
func ( p * pragma ) PopMacro ( nm string ) {
id := dict . sid ( nm )
a := p . c . macroStack [ id ]
if n := len ( a ) ; n != 0 {
p . c . macros [ id ] = a [ n - 1 ]
p . c . macroStack [ id ] = a [ : n - 1 ]
}
}
// PrettyString returns a formatted representation of things produced by this package.
func PrettyString ( v interface { } ) string {
return strutil . PrettyString ( v , "" , "" , printHooks )
}
// StringID is a process-unique string numeric identifier. Its zero value
// represents an empty string.
type StringID int32
// String implements fmt.Stringer.
func ( n StringID ) String ( ) ( r string ) {
if n < 256 {
return dictStrings [ byte ( n ) ]
}
dict . mu . RLock ( )
r = dict . strings [ n ]
dict . mu . RUnlock ( )
return r
}
// Node is implemented by Token and all AST nodes.
type Node interface {
Position ( ) token . Position
}
type noder struct { }
func ( noder ) Position ( ) token . Position { panic ( internalError ( ) ) }
// Scope maps identifiers to definitions.
type Scope map [ StringID ] [ ] Node
func ( s * Scope ) new ( ) ( r Scope ) {
if * s == nil {
* s = Scope { }
}
r = Scope { scopeParent : [ ] Node { struct {
noder
Scope
} { Scope : * s } } }
return r
}
func ( s * Scope ) declare ( nm StringID , n Node ) {
sc := * s
if sc == nil {
* s = map [ StringID ] [ ] Node { nm : { n } }
// t := ""
// if x, ok := n.(*Declarator); ok && x.IsTypedefName {
// t = ", typedefname"
// }
// dbg("declared %s%s at %v in scope %p", nm, t, n.Position(), *s)
return
}
switch x := n . ( type ) {
case * Declarator , * StructDeclarator , * LabeledStatement , * BlockItem :
// nop
case * StructOrUnionSpecifier , * EnumSpecifier , * Enumerator :
for {
if _ , ok := sc [ scopeSkip ] ; ! ok {
break
}
sc = sc . Parent ( )
}
default :
panic ( todo ( "%T" , x ) )
}
sc [ nm ] = append ( sc [ nm ] , n )
// t := ""
// if x, ok := n.(*Declarator); ok && x.IsTypedefName {
// t = ", typedefname"
// }
// dbg("declared %s%s at %v in scope %p", nm, t, n.Position(), sc)
}
// Parent returns s's outer scope, if any.
func ( s Scope ) Parent ( ) Scope {
if s == nil {
return nil
}
if x , ok := s [ scopeParent ] ; ok {
return x [ 0 ] . ( struct {
noder
Scope
} ) . Scope
}
return nil
}
func ( s * Scope ) typedef ( nm StringID , tok Token ) * Declarator {
seq := tok . seq
for s := * s ; s != nil ; s = s . Parent ( ) {
for _ , v := range s [ nm ] {
switch x := v . ( type ) {
case * Declarator :
if ! x . isVisible ( seq ) {
continue
}
if x . IsTypedefName {
return x
}
return nil
case * Enumerator :
return nil
case * EnumSpecifier , * StructOrUnionSpecifier , * StructDeclarator :
// nop
default :
panic ( internalError ( ) )
}
}
}
return nil
}
func ( s * Scope ) declarator ( nm StringID , tok Token ) * Declarator {
seq := tok . seq
for s := * s ; s != nil ; s = s . Parent ( ) {
defs := s [ nm ]
for _ , v := range defs {
switch x := v . ( type ) {
case * Declarator :
if ! x . isVisible ( seq ) {
continue
}
for _ , v := range defs {
if x , ok := v . ( * Declarator ) ; ok {
t := x . Type ( )
if t != nil && t . Kind ( ) == Function {
if x . fnDef {
return x
}
continue
}
if t != nil && ! x . Type ( ) . IsIncomplete ( ) {
return x
}
}
}
return x
case * Enumerator :
return nil
case * EnumSpecifier , * StructOrUnionSpecifier , * StructDeclarator :
// nop
default :
panic ( internalError ( ) )
}
}
}
return nil
}
func ( s * Scope ) enumerator ( nm StringID , tok Token ) * Enumerator {
seq := tok . seq
for s := * s ; s != nil ; s = s . Parent ( ) {
for _ , v := range s [ nm ] {
switch x := v . ( type ) {
case * Declarator :
if ! x . isVisible ( seq ) {
continue
}
return nil
case * Enumerator :
return x
case * EnumSpecifier , * StructOrUnionSpecifier , * StructDeclarator :
// nop
default :
panic ( internalError ( ) )
}
}
}
return nil
}
// Config3 amends behavior of translation phases 1 to 3.
type Config3 struct {
// If IgnoreInclude is not nil, its MatchString method will be called by the
// preprocessor with the argument any include directive expands to. If the call
// evaluates to is true the include directive will be ignored completely.
IgnoreInclude * regexp . Regexp
// Name of a macro to use instead of FD_ZERO.
//
// Note: Temporary solution will be removed/replaced
ReplaceMacroFdZero string
// Name of a macro to use instead of TCL_DEFAULT_DOUBLE_ROUNDING.
//
// Note: Temporary solution will be removed/replaced
ReplaceMacroTclDefaultDoubleRounding string // Name of a macro to use instead of TCL_DEFAULT_DOUBLE_ROUNDING. Note: Temporrary solution will be removed/replaced
// Name of a macro to use instead of TCL_IEEE_DOUBLE_ROUNDING.
//
// Note: Temporary solution will be removed/replaced
ReplaceMacroTclIeeeDoubleRounding string
WorkingDir string // Overrides os.Getwd if non empty.
Filesystem Filesystem // Overrides filesystem access if not empty.
MaxSourceLine int // Zero: Scanner will use default buffer. Non zero: Scanner will use max(default buffer size, MaxSourceLine).
// DisableBuiltinResolution disables resolution of undefined identifiers such
// that eg. abort, becomes the same as __builtin_abort, prototype of which is
// expected to be provided by one of the sources passed to Parse, Preprocess or
// Translate.
DisableBuiltinResolution bool
DisableTrigraphs bool // GCC ignores them unless -trigraphs is used: https://gcc.gnu.org/onlinedocs/cpp/Initial-processing.html
GCCStructs bool // Assume __attribute__(gcc_struct) applied to structs by default.
//TODO MSStructs bool // Assume __attribute__(ms_struct) applied to structs by default.
NoFieldAndBitfieldOverlap bool // Only bitfields can be grouped together.
PreserveOnlyLastNonBlankSeparator bool // If PreserveWhiteSpace is true, keep only the last white space, do not combine
PreserveWhiteSpace bool // Including also comments.
RejectElseExtraTokens bool // Pedantic: do not silently accept "#else foo".
RejectEndifExtraTokens bool // Pedantic: do not silently accept "#endif foo".
RejectFinalBackslash bool // Pedantic: do not silently accept "foo\\\n".
RejectFunctionMacroEmptyReplacementList bool // Pedantic: do not silently accept "#define foo(bar)\n".
RejectIfdefExtraTokens bool // Pedantic: do not silently accept "#ifdef foo bar".
RejectIfndefExtraTokens bool // Pedantic: do not silently accept "#ifndef foo bar".
RejectIncludeNext bool // Pedantic: do not silently accept "#include_next".
RejectInvalidVariadicMacros bool // Pedantic: do not silently accept "#define foo(bar...)". Standard allows only #define foo(bar, ...)
RejectLineExtraTokens bool // Pedantic: do not silently accept "#line 1234 \"foo.c\" bar".
RejectMissingFinalNewline bool // Pedantic: do not silently accept "foo\nbar".
RejectUndefExtraTokens bool // Pedantic: do not silently accept "#undef foo bar".
UnsignedEnums bool // GCC compatibility: enums with no negative values will have unsigned type.
}
type SharedFunctionDefinitions struct {
M map [ * FunctionDefinition ] struct { }
m map [ sharedFunctionDefinitionKey ] * FunctionDefinition //TODO
hash maphash . Hash
}
type sharedFunctionDefinitionKey struct {
pos StringID
nm StringID
hash uint64
}
// Config amends behavior of translation phase 4 and above. Instances of Config
// are not mutated by this package and it's safe to share/reuse them.
//
// The *Config passed to Parse or Translate should not be mutated afterwards.
type Config struct {
Config3
ABI ABI
PragmaHandler func ( Pragma , [ ] Token ) // Called on pragmas, other than #pragma STDC ..., if non nil
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// SharedFunctionDefinitions collects function definitions having the same
// position and definition. This can happen, for example, when a function is
// defined in a header file included multiple times. Either within a single
// translation unit or across translation units. In the later case just supply
// the same SharedFunctionDefinitions in Config when translating/parsing each
// translation unit.
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SharedFunctionDefinitions * SharedFunctionDefinitions
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// IncludeFileHandler, when non nil, is called by the preprocessor for every
// successfully included file.
IncludeFileHandler func ( pos gotoken . Position , includePath string )
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MaxErrors int // 0: default (10), < 0: unlimited, n: n.
CheckExternInlineFnBodies bool // Translate will consider extern inline function bodies.
DebugIncludePaths bool // Output to stderr.
DebugWorkingDir bool // Output to stderr.
DoNotTypecheckAsm bool
EnableAssignmentCompatibilityChecking bool // No such checks performed up to v3.31.0. Currently only partially implemented.
InjectTracingCode bool // Output to stderr.
LongDoubleIsDouble bool
PreprocessOnly bool
RejectAnonymousFields bool // Pedantic: do not silently accept "struct{int;}".
RejectCaseRange bool // Pedantic: do not silently accept "case 'a'...'z':".
RejectEmptyCompositeLiterals bool // Pedantic: do not silently accept "foo = (T){}".
RejectEmptyDeclarations bool // Pedantic: do not silently accept "int foo(){};".
RejectEmptyFields bool // Pedantic: do not silently accept "struct {int a;;} foo;".
RejectEmptyInitializerList bool // Pedantic: do not silently accept "foo f = {};".
RejectEmptyStructDeclaration bool // Pedantic: do not silently accept "struct{; int i}".
RejectEmptyStructs bool // Pedantic: do not silently accept "struct foo {};".
RejectIncompatibleMacroRedef bool // Pedantic: do not silently accept "#define MIN(A,B) ...\n#define MIN(a,b) ...\n" etc.
RejectLabelValues bool // Pedantic: do not silently accept "foo: bar(); void *ptr = &&foo;" or "goto *ptr".
RejectLateBinding bool // Pedantic: do not silently accept void f() { g(); } void g() {}
RejectMissingConditionalExpr bool // Pedantic: do not silently accept "foo = bar ? : baz;".
RejectMissingDeclarationSpecifiers bool // Pedantic: do not silently accept "main() {}".
RejectMissingFinalStructFieldSemicolon bool // Pedantic: do not silently accept "struct{int i; int j}".
RejectNestedFunctionDefinitions bool // Pedantic: do not silently accept nested function definitons.
RejectParamSemicolon bool // Pedantic: do not silently accept "int f(int a; int b)".
RejectStatementExpressions bool // Pedantic: do not silently accept "i = ({foo();})".
RejectTypeof bool // Pedantic: do not silently accept "typeof foo" or "typeof(bar*)".
RejectUninitializedDeclarators bool // Reject int f() { int j; return j; }
TrackAssignments bool // Collect a list of LHS declarators a declarator is used in RHS or as an function argument.
doNotSanityCheckComplexTypes bool // Testing only
fakeIncludes bool // Testing only.
ignoreErrors bool // Testing only.
ignoreIncludes bool // Testing only.
ignoreUndefinedIdentifiers bool // Testing only.
}
type context struct {
ast * AST
breakCtx Node
breaks int
casePromote Type
cases [ ] * LabeledStatement // switch
cfg * Config
checkFn * FunctionDefinition
closure map [ StringID ] struct { }
continues int
enums map [ StringID ] Operand //TODO putting this in alphabetical order within the struct causes crashes in VirtualBox/386 ???
goscanner . ErrorList
includePaths [ ] string
intBits int
intMaxWidth int64 // Set if the preprocessor saw __INTMAX_WIDTH__.
keywords map [ StringID ] rune
maxAlign int // If non zero: maximum alignment of members of structures (other than zero-width bitfields).
maxAlign0 int
maxErrors int
mode mode
modes [ ] mode
mu sync . Mutex
ptrdiffT Type
readDelta int
sizeT Type
structTypes map [ StringID ] Type
structs map [ StructInfo ] struct { }
switches int
sysIncludePaths [ ] string
tuSize0 int64 // Sum of sizes of processed inputs
tuSources0 int32 // Number of processed inputs
wcharT Type
capture bool
evalIdentError bool
}
func newContext ( cfg * Config ) * context {
maxErrors := cfg . MaxErrors
if maxErrors == 0 {
maxErrors = 10
}
return & context {
cfg : cfg ,
enums : map [ StringID ] Operand { } ,
keywords : keywords ,
maxErrors : maxErrors ,
structTypes : map [ StringID ] Type { } ,
structs : map [ StructInfo ] struct { } { } ,
}
}
func ( c * context ) tuSizeAdd ( n int64 ) { atomic . AddInt64 ( & c . tuSize0 , n ) }
func ( c * context ) tuSize ( ) int64 { return atomic . LoadInt64 ( & c . tuSize0 ) }
func ( c * context ) tuSourcesAdd ( n int32 ) { atomic . AddInt32 ( & c . tuSources0 , n ) }
func ( c * context ) tuSources ( ) int { return int ( atomic . LoadInt32 ( & c . tuSources0 ) ) }
func ( c * context ) stddef ( nm StringID , s Scope , tok Token ) Type {
if d := s . typedef ( nm , tok ) ; d != nil {
if t := d . Type ( ) ; t != nil && t . Kind ( ) != Invalid {
return t
}
}
c . errNode ( & tok , "front-end: undefined: %s" , nm )
return noType
}
func ( c * context ) assignmentCompatibilityErrorCond ( n Node , a , b Type ) ( stop bool ) {
if ! c . cfg . EnableAssignmentCompatibilityChecking {
return
}
return c . errNode ( n , "invalid type combination of conditional operator: %v and %v" , a , b )
}
func ( c * context ) assignmentCompatibilityError ( n Node , lhs , rhs Type ) ( stop bool ) {
if ! c . cfg . EnableAssignmentCompatibilityChecking {
return
}
return c . errNode ( n , "cannot use %v as type %v in assignment" , rhs , lhs )
}
func ( c * context ) errNode ( n Node , msg string , args ... interface { } ) ( stop bool ) {
return c . err ( n . Position ( ) , msg , args ... )
}
func ( c * context ) err ( pos token . Position , msg string , args ... interface { } ) ( stop bool ) {
// dbg("FAIL "+msg, args...)
//fmt.Printf("FAIL "+msg+"\n", args...)
if c . cfg . ignoreErrors {
return false
}
s := fmt . Sprintf ( msg , args ... )
c . mu . Lock ( )
max := c . maxErrors
switch {
case max < 0 || max > len ( c . ErrorList ) :
c . ErrorList . Add ( gotoken . Position ( pos ) , s )
default :
stop = true
}
c . mu . Unlock ( )
return stop
}
func ( c * context ) errs ( list goscanner . ErrorList ) ( stop bool ) {
c . mu . Lock ( )
defer c . mu . Unlock ( )
max := c . maxErrors
for _ , v := range list {
switch {
case max < 0 || max > len ( c . ErrorList ) :
c . ErrorList = append ( c . ErrorList , v )
default :
return true
}
}
return false
}
func ( c * context ) Err ( ) error {
c . mu . Lock ( )
switch x := c . ErrorList . Err ( ) . ( type ) {
case goscanner . ErrorList :
x = append ( goscanner . ErrorList ( nil ) , x ... )
c . mu . Unlock ( )
var lpos gotoken . Position
w := 0
for _ , v := range x {
if lpos . Filename != "" {
if v . Pos . Filename == lpos . Filename && v . Pos . Line == lpos . Line {
continue
}
}
x [ w ] = v
w ++
lpos = v . Pos
}
x = x [ : w ]
sort . Slice ( x , func ( i , j int ) bool {
a := x [ i ]
b := x [ j ]
if ! a . Pos . IsValid ( ) && b . Pos . IsValid ( ) {
return true
}
if a . Pos . IsValid ( ) && ! b . Pos . IsValid ( ) {
return false
}
if a . Pos . Filename < b . Pos . Filename {
return true
}
if a . Pos . Filename > b . Pos . Filename {
return false
}
if a . Pos . Line < b . Pos . Line {
return true
}
if a . Pos . Line > b . Pos . Line {
return false
}
return a . Pos . Column < b . Pos . Column
} )
a := make ( [ ] string , 0 , len ( x ) )
for _ , v := range x {
a = append ( a , v . Error ( ) )
}
return fmt . Errorf ( "%s" , strings . Join ( a , "\n" ) )
default :
c . mu . Unlock ( )
return x
}
}
func ( c * context ) not ( n Node , mode mode ) {
if c . mode & mode != 0 {
switch mode {
case mIntConstExpr :
c . errNode ( n , "invalid integer constant expression" )
default :
panic ( internalError ( ) )
}
}
}
func ( c * context ) push ( mode mode ) {
c . modes = append ( c . modes , c . mode )
c . mode = mode
}
func ( c * context ) pop ( ) {
n := len ( c . modes )
c . mode = c . modes [ n - 1 ]
c . modes = c . modes [ : n - 1 ]
}
func ( c * context ) statFile ( name string , sys bool ) ( os . FileInfo , error ) {
fs := c . cfg . Config3 . Filesystem
if fs == nil {
fs = LocalFS ( )
}
return fs . Stat ( name , sys )
}
func ( c * context ) openFile ( name string , sys bool ) ( io . ReadCloser , error ) {
fs := c . cfg . Config3 . Filesystem
if fs == nil {
fs = LocalFS ( )
}
return fs . Open ( name , sys )
}
// HostConfig returns the system C preprocessor/compiler configuration, or an
// error, if any. The configuration is obtained by running the command named
// by the cpp argumnent or "cpp" when it's empty. For the predefined macros
// list the '-dM' options is added. For the include paths lists, the option
// '-v' is added and the output is parsed to extract the "..." include and
// <...> include paths. To add any other options to cpp, list them in opts.
//
// The function relies on a POSIX/GCC compatible C preprocessor installed.
// Execution of HostConfig is not free, so caching of the results is
// recommended.
func HostConfig ( cpp string , opts ... string ) ( predefined string , includePaths , sysIncludePaths [ ] string , err error ) {
if cpp == "" {
cpp = "cpp"
}
args := append ( append ( [ ] string { "-dM" } , opts ... ) , os . DevNull )
pre , err := exec . Command ( cpp , args ... ) . Output ( )
if err != nil {
return "" , nil , nil , err
}
args = append ( append ( [ ] string { "-v" } , opts ... ) , os . DevNull )
out , err := exec . Command ( cpp , args ... ) . CombinedOutput ( )
if err != nil {
return "" , nil , nil , err
}
sep := "\n"
if env ( "GOOS" , runtime . GOOS ) == "windows" {
sep = "\r\n"
}
a := strings . Split ( string ( out ) , sep )
for i := 0 ; i < len ( a ) ; {
switch a [ i ] {
case "#include \"...\" search starts here:" :
loop :
for i = i + 1 ; i < len ( a ) ; {
switch v := a [ i ] ; {
case strings . HasPrefix ( v , "#" ) || v == "End of search list." :
break loop
default :
includePaths = append ( includePaths , strings . TrimSpace ( v ) )
i ++
}
}
case "#include <...> search starts here:" :
for i = i + 1 ; i < len ( a ) ; {
switch v := a [ i ] ; {
case strings . HasPrefix ( v , "#" ) || v == "End of search list." :
return string ( pre ) , includePaths , sysIncludePaths , nil
default :
sysIncludePaths = append ( sysIncludePaths , strings . TrimSpace ( v ) )
i ++
}
}
default :
i ++
}
}
return "" , nil , nil , fmt . Errorf ( "failed parsing %s -v output" , cpp )
}
func env ( key , val string ) string {
if s := os . Getenv ( key ) ; s != "" {
return s
}
return val
}
// Token is a grammar terminal.
type Token struct {
Rune rune // ';' or IDENTIFIER etc.
Sep StringID // If Config3.PreserveWhiteSpace is in effect: All preceding white space combined, including comments.
Value StringID // ";" or "foo" etc.
Src StringID
file * tokenFile
macro StringID
pos int32
seq int32
}
// Seq returns t's sequential number.
//
// Comparing positions as in 'before', 'after' is complicated as tokens in a
// translation unit usually come from more than one source file. Macro
// expansion further complicates that. The solution is sequentially numbering
// the tokens as they are finally seen by the parser, so the usual arithmetic
// '<', '>' operators can be used for that purpose.
func ( t Token ) Seq ( ) int { return int ( t . seq ) }
// Macro returns the name of a macro that expanded to this token, if any.
func ( t * Token ) Macro ( ) StringID { return t . macro }
// String implements fmt.Stringer.
func ( t Token ) String ( ) string { return t . Value . String ( ) }
// Position implements Node.
func ( t * Token ) Position ( ) ( r token . Position ) {
if t . pos != 0 && t . file != nil {
r = t . file . PositionFor ( token . Pos ( t . pos ) , true )
}
return r
}
func tokStr ( toks interface { } , sep string ) string {
var b strings . Builder
switch x := toks . ( type ) {
case [ ] token3 :
for i , v := range x {
if i != 0 {
b . WriteString ( sep )
}
b . WriteString ( v . String ( ) )
}
case [ ] token4 :
for i , v := range x {
if i != 0 {
b . WriteString ( sep )
}
b . WriteString ( v . String ( ) )
}
case [ ] cppToken :
for i , v := range x {
if i != 0 {
b . WriteString ( sep )
}
b . WriteString ( v . String ( ) )
}
case [ ] Token :
for i , v := range x {
if i != 0 {
b . WriteString ( sep )
}
b . WriteString ( v . String ( ) )
}
default :
panic ( internalError ( ) )
}
return b . String ( )
}
func internalError ( ) int {
panic ( fmt . Errorf ( "%v: internal error" , origin ( 2 ) ) )
}
func internalErrorf ( s string , args ... interface { } ) int {
s = fmt . Sprintf ( s , args )
panic ( fmt . Errorf ( "%v: %s" , origin ( 2 ) , s ) )
}
func detectMingw ( s string ) bool {
return strings . Contains ( s , "#define __MINGW" )
}
func nodeSource ( n ... Node ) ( r string ) {
if len ( n ) == 0 {
return ""
}
var a [ ] * Token
for _ , v := range n {
Inspect ( v , func ( n Node , _ bool ) bool {
if x , ok := n . ( * Token ) ; ok && x . Seq ( ) != 0 {
a = append ( a , x )
}
return true
} )
}
sort . Slice ( a , func ( i , j int ) bool {
return a [ i ] . Seq ( ) < a [ j ] . Seq ( )
} )
w := 0
seq := - 1
for _ , v := range a {
if n := v . Seq ( ) ; n != seq {
seq = n
a [ w ] = v
w ++
}
}
a = a [ : w ]
var b strings . Builder
for _ , v := range a {
b . WriteString ( v . Sep . String ( ) )
b . WriteString ( v . Src . String ( ) )
}
return b . String ( )
}