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geany/tagmanager/c.c
Nick Treleaven ad069865cc D doesn't have the namespace keyword. 
git-svn-id: https://geany.svn.sourceforge.net/svnroot/geany/trunk@4419 ea778897-0a13-0410-b9d1-a72fbfd435f5
2009-11-10 18:48:14 +00:00

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/*
*
* Copyright (c) 1996-2001, Darren Hiebert
*
* This source code is released for free distribution under the terms of the
* GNU General Public License.
*
* This module contains functions for parsing and scanning C, C++, D and Java
* source files.
*/
/*
* INCLUDE FILES
*/
#include "general.h" /* must always come first */
#include <string.h>
#include <setjmp.h>
#include "entry.h"
#include "get.h"
#include "keyword.h"
#include "main.h"
#include "options.h"
#include "parse.h"
#include "read.h"
/*
* MACROS
*/
#define activeToken(st) ((st)->token [(int) (st)->tokenIndex])
#define parentDecl(st) ((st)->parent == NULL ? \
DECL_NONE : (st)->parent->declaration)
#define isType(token,t) (boolean) ((token)->type == (t))
#define insideEnumBody(st) (boolean) ((st)->parent == NULL ? FALSE : \
((st)->parent->declaration == DECL_ENUM))
#define isExternCDecl(st,c) (boolean) ((c) == STRING_SYMBOL && \
! (st)->haveQualifyingName && \
(st)->scope == SCOPE_EXTERN)
#define isOneOf(c,s) (boolean) (strchr ((s), (c)) != NULL)
/*
* DATA DECLARATIONS
*/
enum { NumTokens = 12 };
typedef enum eException
{
ExceptionNone, ExceptionEOF, ExceptionFormattingError,
ExceptionBraceFormattingError
} exception_t;
/* Used to specify type of keyword.
*/
typedef enum eKeywordId
{
KEYWORD_NONE = -1,
KEYWORD_ATTRIBUTE, KEYWORD_ABSTRACT, KEYWORD_ALIAS,
KEYWORD_BOOLEAN, KEYWORD_BYTE, KEYWORD_BAD_STATE, KEYWORD_BAD_TRANS,
KEYWORD_BIND, KEYWORD_BIND_VAR, KEYWORD_BIT, KEYWORD_BODY,
KEYWORD_CASE, KEYWORD_CATCH, KEYWORD_CHAR, KEYWORD_CLASS, KEYWORD_CONST,
KEYWORD_CONSTRAINT, KEYWORD_COVERAGE_BLOCK, KEYWORD_COVERAGE_DEF,
KEYWORD_DEFAULT, KEYWORD_DELEGATE, KEYWORD_DELETE, KEYWORD_DO,
KEYWORD_DOUBLE,
KEYWORD_ELSE, KEYWORD_ENUM, KEYWORD_EXPLICIT, KEYWORD_EXTERN,
KEYWORD_EXTENDS, KEYWORD_EVENT,
KEYWORD_FINAL, KEYWORD_FINALLY, KEYWORD_FLOAT, KEYWORD_FOR, KEYWORD_FRIEND, KEYWORD_FUNCTION,
KEYWORD_GET, KEYWORD_GOTO,
KEYWORD_IF, KEYWORD_IMPLEMENTS, KEYWORD_IMPORT, KEYWORD_IN, KEYWORD_INLINE, KEYWORD_INT,
KEYWORD_INOUT, KEYWORD_INPUT, KEYWORD_INTEGER, KEYWORD_INTERFACE,
KEYWORD_INTERNAL,
KEYWORD_LOCAL, KEYWORD_LONG,
KEYWORD_M_BAD_STATE, KEYWORD_M_BAD_TRANS, KEYWORD_M_STATE, KEYWORD_M_TRANS,
KEYWORD_MODULE, KEYWORD_MUTABLE,
KEYWORD_NAMESPACE, KEYWORD_NEW, KEYWORD_NEWCOV, KEYWORD_NATIVE,
KEYWORD_OPERATOR, KEYWORD_OUT, KEYWORD_OUTPUT, KEYWORD_OVERLOAD, KEYWORD_OVERRIDE,
KEYWORD_PACKED, KEYWORD_PORT, KEYWORD_PACKAGE, KEYWORD_PRIVATE,
KEYWORD_PROGRAM, KEYWORD_PROTECTED, KEYWORD_PUBLIC,
KEYWORD_REF, KEYWORD_REGISTER, KEYWORD_RETURN,
KEYWORD_SHADOW, KEYWORD_STATE,
KEYWORD_SET, KEYWORD_SHORT, KEYWORD_SIGNAL, KEYWORD_SIGNED, KEYWORD_SIZE_T, KEYWORD_STATIC, KEYWORD_STRING,
KEYWORD_STRUCT, KEYWORD_SWITCH, KEYWORD_SYNCHRONIZED,
KEYWORD_TASK, KEYWORD_TEMPLATE, KEYWORD_THIS, KEYWORD_THROW,
KEYWORD_THROWS, KEYWORD_TRANSIENT, KEYWORD_TRANS, KEYWORD_TRANSITION,
KEYWORD_TRY, KEYWORD_TYPEDEF, KEYWORD_TYPENAME,
KEYWORD_UINT, KEYWORD_ULONG, KEYWORD_UNION, KEYWORD_UNSIGNED, KEYWORD_USHORT,
KEYWORD_USING,
KEYWORD_VIRTUAL, KEYWORD_VOID, KEYWORD_VOLATILE,
KEYWORD_WCHAR_T, KEYWORD_WEAK, KEYWORD_WHILE
} keywordId;
/* Used to determine whether keyword is valid for the current language and
* what its ID is.
*/
typedef struct sKeywordDesc
{
const char *name;
keywordId id;
short isValid [7]; /* indicates languages for which kw is valid */
} keywordDesc;
/* Used for reporting the type of object parsed by nextToken ().
*/
typedef enum eTokenType
{
TOKEN_NONE, /* none */
TOKEN_ARGS, /* a parenthetical pair and its contents */
TOKEN_BRACE_CLOSE,
TOKEN_BRACE_OPEN,
TOKEN_COMMA, /* the comma character */
TOKEN_DOUBLE_COLON, /* double colon indicates nested-name-specifier */
TOKEN_KEYWORD,
TOKEN_NAME, /* an unknown name */
TOKEN_PACKAGE, /* a Java package name */
TOKEN_PAREN_NAME, /* a single name in parentheses */
TOKEN_SEMICOLON, /* the semicolon character */
TOKEN_SPEC, /* a storage class specifier, qualifier, type, etc. */
TOKEN_STAR, /* pointer detection */
TOKEN_ARRAY, /* array detection */
TOKEN_COUNT
} tokenType;
/* This describes the scoping of the current statement.
*/
typedef enum eTagScope
{
SCOPE_GLOBAL, /* no storage class specified */
SCOPE_STATIC, /* static storage class */
SCOPE_EXTERN, /* external storage class */
SCOPE_FRIEND, /* declares access only */
SCOPE_TYPEDEF, /* scoping depends upon context */
SCOPE_COUNT
} tagScope;
typedef enum eDeclaration
{
DECL_NONE,
DECL_BASE, /* base type (default) */
DECL_CLASS,
DECL_ENUM,
DECL_EVENT,
DECL_SIGNAL,
DECL_FUNCTION,
DECL_IGNORE, /* non-taggable "declaration" */
DECL_INTERFACE,
DECL_MODULE,
DECL_NAMESPACE,
DECL_NOMANGLE, /* C++ name demangling block */
DECL_PACKAGE,
DECL_STRUCT,
DECL_UNION,
DECL_COUNT
} declType;
typedef enum eVisibilityType
{
ACCESS_UNDEFINED,
ACCESS_PRIVATE,
ACCESS_PROTECTED,
ACCESS_PUBLIC,
ACCESS_DEFAULT, /* Java-specific */
ACCESS_COUNT
} accessType;
/* Information about the parent class of a member (if any).
*/
typedef struct sMemberInfo
{
accessType access; /* access of current statement */
accessType accessDefault; /* access default for current statement */
} memberInfo;
typedef struct sTokenInfo
{
tokenType type;
keywordId keyword;
vString* name; /* the name of the token */
unsigned long lineNumber; /* line number of tag */
fpos_t filePosition; /* file position of line containing name */
int bufferPosition; /* buffer position of line containing name */
} tokenInfo;
typedef enum eImplementation
{
IMP_DEFAULT,
IMP_ABSTRACT,
IMP_VIRTUAL,
IMP_PURE_VIRTUAL,
IMP_COUNT
} impType;
/* Describes the statement currently undergoing analysis.
*/
typedef struct sStatementInfo
{
tagScope scope;
declType declaration; /* specifier associated with TOKEN_SPEC */
boolean gotName; /* was a name parsed yet? */
boolean haveQualifyingName; /* do we have a name we are considering? */
boolean gotParenName; /* was a name inside parentheses parsed yet? */
boolean gotArgs; /* was a list of parameters parsed yet? */
impType implementation; /* abstract or concrete implementation? */
unsigned int tokenIndex; /* currently active token */
tokenInfo* token [((int) NumTokens)];
tokenInfo* context; /* accumulated scope of current statement */
tokenInfo* blockName; /* name of current block */
memberInfo member; /* information regarding parent class/struct */
vString* parentClasses; /* parent classes */
struct sStatementInfo *parent; /* statement we are nested within */
long argEndPosition; /* Position where argument list ended */
tokenInfo* firstToken; /* First token in the statement */
} statementInfo;
/* Describes the type of tag being generated.
*/
typedef enum eTagType
{
TAG_UNDEFINED,
TAG_CLASS, /* class name */
TAG_ENUM, /* enumeration name */
TAG_ENUMERATOR, /* enumerator (enumeration value) */
TAG_FIELD, /* field (Java) */
TAG_FUNCTION, /* function definition */
TAG_INTERFACE, /* interface declaration */
TAG_MEMBER, /* structure, class or interface member */
TAG_METHOD, /* method declaration */
TAG_NAMESPACE, /* namespace name */
TAG_PACKAGE, /* package name */
TAG_PROTOTYPE, /* function prototype or declaration */
TAG_STRUCT, /* structure name */
TAG_TYPEDEF, /* typedef name */
TAG_UNION, /* union name */
TAG_VARIABLE, /* variable definition */
TAG_EXTERN_VAR, /* external variable declaration */
TAG_MACRO, /* #define s */
TAG_EVENT, /* event */
TAG_SIGNAL, /* signal */
TAG_LOCAL, /* local variable definition */
TAG_PROPERTY, /* property name */
TAG_COUNT /* must be last */
} tagType;
typedef struct sParenInfo
{
boolean isParamList;
boolean isKnrParamList;
boolean isNameCandidate;
boolean invalidContents;
boolean nestedArgs;
unsigned int parameterCount;
} parenInfo;
/*
* DATA DEFINITIONS
*/
static jmp_buf Exception;
static langType Lang_c;
static langType Lang_cpp;
static langType Lang_csharp;
static langType Lang_java;
static langType Lang_d;
static langType Lang_glsl;
static langType Lang_ferite;
static langType Lang_vala;
/* Used to index into the CKinds table. */
typedef enum
{
CK_UNDEFINED = -1,
CK_CLASS, CK_DEFINE, CK_ENUMERATOR, CK_FUNCTION,
CK_ENUMERATION, CK_INTERFACE, CK_MEMBER, CK_NAMESPACE, CK_PROTOTYPE,
CK_STRUCT, CK_TYPEDEF, CK_UNION, CK_VARIABLE,
CK_EXTERN_VARIABLE
} cKind;
static kindOption CKinds [] = {
{ TRUE, 'c', "class", "classes"},
{ TRUE, 'd', "macro", "macro definitions"},
{ TRUE, 'e', "enumerator", "enumerators (values inside an enumeration)"},
{ TRUE, 'f', "function", "function definitions"},
{ TRUE, 'g', "enum", "enumeration names"},
{ TRUE, 'i', "interface", "interfaces"}, /* for D */
{ TRUE, 'm', "member", "class, struct, and union members"},
{ TRUE, 'n', "namespace", "namespaces"},
{ FALSE, 'p', "prototype", "function prototypes"},
{ TRUE, 's', "struct", "structure names"},
{ TRUE, 't', "typedef", "typedefs"},
{ TRUE, 'u', "union", "union names"},
{ TRUE, 'v', "variable", "variable definitions"},
{ FALSE, 'x', "externvar", "external variable declarations"},
};
/* Used to index into the JavaKinds table. */
typedef enum
{
JK_UNDEFINED = -1,
JK_CLASS, JK_FIELD, JK_INTERFACE, JK_METHOD,
JK_PACKAGE
} javaKind;
static kindOption JavaKinds [] = {
{ TRUE, 'c', "class", "classes"},
{ TRUE, 'f', "field", "fields"},
{ TRUE, 'i', "interface", "interfaces"},
{ TRUE, 'm', "method", "methods"},
{ TRUE, 'p', "package", "packages"},
};
typedef enum
{
CSK_UNDEFINED = -1,
CSK_CLASS, CSK_DEFINE, CSK_ENUMERATOR, CSK_EVENT, CSK_FIELD,
CSK_ENUMERATION, CSK_INTERFACE, CSK_LOCAL, CSK_METHOD,
CSK_NAMESPACE, CSK_PROPERTY, CSK_STRUCT, CSK_TYPEDEF
} csharpKind;
static kindOption CsharpKinds [] = {
{ TRUE, 'c', "class", "classes"},
{ TRUE, 'd', "macro", "macro definitions"},
{ TRUE, 'e', "enumerator", "enumerators (values inside an enumeration)"},
{ TRUE, 'E', "event", "events"},
{ TRUE, 'f', "field", "fields"},
{ TRUE, 'g', "enum", "enumeration names"},
{ TRUE, 'i', "interface", "interfaces"},
{ FALSE, 'l', "local", "local variables"},
{ TRUE, 'm', "method", "methods"},
{ TRUE, 'n', "namespace", "namespaces"},
{ TRUE, 'p', "property", "properties"},
{ TRUE, 's', "struct", "structure names"},
{ TRUE, 't', "typedef", "typedefs"},
};
typedef enum {
VK_UNDEFINED = -1,
VK_CLASS, VK_DEFINE, VK_ENUMERATOR, VK_FIELD,
VK_ENUMERATION, VK_INTERFACE, VK_LOCAL, VK_METHOD,
VK_NAMESPACE, VK_PROPERTY, VK_SIGNAL, VK_STRUCT
} valaKind;
static kindOption ValaKinds [] = {
{ TRUE, 'c', "class", "classes"},
{ TRUE, 'd', "macro", "macro definitions"},
{ TRUE, 'e', "enumerator", "enumerators (values inside an enumeration)"},
{ TRUE, 'f', "field", "fields"},
{ TRUE, 'g', "enum", "enumeration names"},
{ TRUE, 'i', "interface", "interfaces"},
{ FALSE, 'l', "local", "local variables"},
{ TRUE, 'm', "method", "methods"},
{ TRUE, 'n', "namespace", "namespaces"},
{ TRUE, 'p', "property", "properties"},
{ TRUE, 'S', "signal", "signals"},
{ TRUE, 's', "struct", "structure names"},
};
static const keywordDesc KeywordTable [] = {
/* C++ */
/* ANSI C | C# Java */
/* | | | | Vera */
/* | | | | | Vala */
/* | | | | | | D */
/* keyword keyword ID | | | | | | | */
{ "__attribute__", KEYWORD_ATTRIBUTE, { 1, 1, 1, 0, 0, 0, 1 } },
{ "abstract", KEYWORD_ABSTRACT, { 0, 0, 1, 1, 0, 1, 1 } },
{ "alias", KEYWORD_TYPEDEF, { 0, 0, 0, 0, 0, 0, 1 } }, /* handle like typedef */
{ "bad_state", KEYWORD_BAD_STATE, { 0, 0, 0, 0, 1, 0, 0 } },
{ "bad_trans", KEYWORD_BAD_TRANS, { 0, 0, 0, 0, 1, 0, 0 } },
{ "bind", KEYWORD_BIND, { 0, 0, 0, 0, 1, 0, 0 } },
{ "bind_var", KEYWORD_BIND_VAR, { 0, 0, 0, 0, 1, 0, 0 } },
{ "bit", KEYWORD_BIT, { 0, 0, 0, 0, 1, 0, 0 } },
{ "body", KEYWORD_BODY, { 0, 0, 0, 0, 0, 0, 1 } },
{ "boolean", KEYWORD_BOOLEAN, { 0, 0, 0, 1, 0, 0, 0 } },
{ "byte", KEYWORD_BYTE, { 0, 0, 0, 1, 0, 0, 1 } },
{ "case", KEYWORD_CASE, { 1, 1, 1, 1, 0, 1, 1 } },
{ "catch", KEYWORD_CATCH, { 0, 1, 1, 0, 0, 1, 1 } },
{ "char", KEYWORD_CHAR, { 1, 1, 1, 1, 0, 1, 1 } },
{ "class", KEYWORD_CLASS, { 0, 1, 1, 1, 1, 1, 1 } },
{ "const", KEYWORD_CONST, { 1, 1, 1, 1, 0, 1, 1 } },
{ "constraint", KEYWORD_CONSTRAINT, { 0, 0, 0, 0, 1, 0, 0 } },
{ "coverage_block", KEYWORD_COVERAGE_BLOCK, { 0, 0, 0, 0, 1, 0, 0 } },
{ "coverage_def", KEYWORD_COVERAGE_DEF, { 0, 0, 0, 0, 1, 0, 0 } },
{ "do", KEYWORD_DO, { 1, 1, 1, 1, 0, 1, 1 } },
{ "default", KEYWORD_DEFAULT, { 1, 1, 1, 1, 0, 1, 1 } },
{ "delegate", KEYWORD_DELEGATE, { 0, 0, 1, 0, 0, 1, 1 } },
{ "delete", KEYWORD_DELETE, { 0, 1, 0, 0, 0, 1, 1 } },
{ "double", KEYWORD_DOUBLE, { 1, 1, 1, 1, 0, 1, 1 } },
{ "else", KEYWORD_ELSE, { 1, 1, 0, 1, 0, 1, 1 } },
{ "enum", KEYWORD_ENUM, { 1, 1, 1, 1, 1, 1, 1 } },
{ "errordomain", KEYWORD_ENUM, { 0, 0, 0, 0, 0, 1, 0 } }, /* errordomain behaves like enum */
{ "event", KEYWORD_EVENT, { 0, 0, 1, 0, 1, 0, 0 } },
{ "explicit", KEYWORD_EXPLICIT, { 0, 1, 1, 0, 0, 0, 1 } },
{ "extends", KEYWORD_EXTENDS, { 0, 0, 0, 1, 1, 0, 0 } },
{ "extern", KEYWORD_EXTERN, { 1, 1, 1, 0, 1, 1, 0 } },
{ "extern", KEYWORD_NAMESPACE, { 0, 0, 0, 0, 0, 0, 1 } }, /* hack to ignore extern */
{ "final", KEYWORD_FINAL, { 0, 0, 0, 1, 0, 0, 1 } },
{ "finally", KEYWORD_FINALLY, { 0, 0, 0, 0, 0, 1, 1 } },
{ "float", KEYWORD_FLOAT, { 1, 1, 1, 1, 0, 1, 1 } },
{ "for", KEYWORD_FOR, { 1, 1, 1, 1, 0, 1, 1 } },
{ "friend", KEYWORD_FRIEND, { 0, 1, 0, 0, 0, 0, 0 } },
{ "function", KEYWORD_FUNCTION, { 0, 0, 0, 0, 1, 0, 1 } },
{ "get", KEYWORD_GET, { 0, 0, 0, 0, 0, 1, 0 } },
{ "goto", KEYWORD_GOTO, { 1, 1, 1, 1, 0, 1, 1 } },
{ "if", KEYWORD_IF, { 1, 1, 1, 1, 0, 1, 1 } },
{ "implements", KEYWORD_IMPLEMENTS, { 0, 0, 0, 1, 0, 0, 0 } },
{ "import", KEYWORD_IMPORT, { 0, 0, 0, 1, 0, 0, 1 } },
{ "inline", KEYWORD_INLINE, { 0, 1, 0, 0, 0, 1, 0 } },
{ "in", KEYWORD_IN, { 0, 0, 0, 0, 0, 0, 1 } },
{ "inout", KEYWORD_INOUT, { 0, 0, 0, 0, 1, 0, 1 } },
{ "input", KEYWORD_INPUT, { 0, 0, 0, 0, 1, 0, 0 } },
{ "int", KEYWORD_INT, { 1, 1, 1, 1, 0, 1, 1 } },
{ "integer", KEYWORD_INTEGER, { 0, 0, 0, 0, 1, 0, 0 } },
{ "interface", KEYWORD_INTERFACE, { 0, 0, 1, 1, 1, 1, 1 } },
{ "internal", KEYWORD_INTERNAL, { 0, 0, 1, 0, 0, 0, 0 } },
{ "local", KEYWORD_LOCAL, { 0, 0, 0, 0, 1, 0, 0 } },
{ "long", KEYWORD_LONG, { 1, 1, 1, 1, 0, 1, 1 } },
{ "m_bad_state", KEYWORD_M_BAD_STATE, { 0, 0, 0, 0, 1, 0, 0 } },
{ "m_bad_trans", KEYWORD_M_BAD_TRANS, { 0, 0, 0, 0, 1, 0, 0 } },
{ "m_state", KEYWORD_M_STATE, { 0, 0, 0, 0, 1, 0, 0 } },
{ "m_trans", KEYWORD_M_TRANS, { 0, 0, 0, 0, 1, 0, 0 } },
{ "mutable", KEYWORD_MUTABLE, { 0, 1, 0, 0, 0, 0, 0 } },
{ "module", KEYWORD_MODULE, { 0, 0, 0, 0, 0, 0, 1 } },
{ "namespace", KEYWORD_NAMESPACE, { 0, 1, 1, 0, 0, 1, 0 } },
{ "native", KEYWORD_NATIVE, { 0, 0, 0, 1, 0, 0, 0 } },
{ "new", KEYWORD_NEW, { 0, 1, 1, 1, 0, 1, 1 } },
{ "newcov", KEYWORD_NEWCOV, { 0, 0, 0, 0, 1, 0, 0 } },
{ "operator", KEYWORD_OPERATOR, { 0, 1, 1, 0, 0, 0, 0 } },
{ "out", KEYWORD_OUT, { 0, 0, 0, 0, 0, 1, 1 } },
{ "output", KEYWORD_OUTPUT, { 0, 0, 0, 0, 1, 0, 0 } },
{ "overload", KEYWORD_OVERLOAD, { 0, 1, 0, 0, 0, 0, 0 } },
{ "override", KEYWORD_OVERRIDE, { 0, 0, 1, 0, 0, 1, 1 } },
{ "package", KEYWORD_PACKAGE, { 0, 0, 0, 1, 0, 0, 1 } },
{ "packed", KEYWORD_PACKED, { 0, 0, 0, 0, 1, 0, 0 } },
{ "port", KEYWORD_PORT, { 0, 0, 0, 0, 1, 0, 0 } },
{ "private", KEYWORD_PRIVATE, { 0, 1, 1, 1, 0, 1, 1 } },
{ "program", KEYWORD_PROGRAM, { 0, 0, 0, 0, 1, 0, 0 } },
{ "protected", KEYWORD_PROTECTED, { 0, 1, 1, 1, 1, 1, 1 } },
{ "public", KEYWORD_PUBLIC, { 0, 1, 1, 1, 1, 1, 1 } },
{ "ref", KEYWORD_REF, { 0, 0, 0, 0, 0, 1, 1 } },
{ "register", KEYWORD_REGISTER, { 1, 1, 0, 0, 0, 0, 0 } },
{ "return", KEYWORD_RETURN, { 1, 1, 1, 1, 0, 1, 1 } },
{ "set", KEYWORD_SET, { 0, 0, 0, 0, 0, 1, 0 } },
{ "shadow", KEYWORD_SHADOW, { 0, 0, 0, 0, 1, 0, 0 } },
{ "short", KEYWORD_SHORT, { 1, 1, 1, 1, 0, 1, 1 } },
{ "signal", KEYWORD_SIGNAL, { 0, 0, 0, 0, 0, 1, 0 } },
{ "signed", KEYWORD_SIGNED, { 1, 1, 0, 0, 0, 0, 0 } },
{ "size_t", KEYWORD_SIZE_T, { 1, 1, 0, 0, 0, 1, 1 } },
{ "state", KEYWORD_STATE, { 0, 0, 0, 0, 1, 0, 0 } },
{ "static", KEYWORD_STATIC, { 1, 1, 1, 1, 1, 1, 1 } },
{ "string", KEYWORD_STRING, { 0, 0, 1, 0, 1, 1, 0 } },
{ "struct", KEYWORD_STRUCT, { 1, 1, 1, 0, 0, 1, 1 } },
{ "switch", KEYWORD_SWITCH, { 1, 1, 1, 1, 0, 1, 1 } },
{ "synchronized", KEYWORD_SYNCHRONIZED, { 0, 0, 0, 1, 0, 0, 1 } },
{ "task", KEYWORD_TASK, { 0, 0, 0, 0, 1, 0, 0 } },
{ "template", KEYWORD_TEMPLATE, { 0, 1, 0, 0, 0, 0, 1 } },
{ "this", KEYWORD_THIS, { 0, 0, 1, 1, 0, 1, 0 } }, /* 0 to allow D ctor tags */
{ "throw", KEYWORD_THROW, { 0, 1, 1, 1, 0, 1, 1 } },
{ "throws", KEYWORD_THROWS, { 0, 0, 0, 1, 0, 1, 0 } },
{ "trans", KEYWORD_TRANS, { 0, 0, 0, 0, 1, 0, 0 } },
{ "transition", KEYWORD_TRANSITION, { 0, 0, 0, 0, 1, 0, 0 } },
{ "transient", KEYWORD_TRANSIENT, { 0, 0, 0, 1, 0, 0, 0 } },
{ "try", KEYWORD_TRY, { 0, 1, 1, 0, 0, 1, 1 } },
{ "typedef", KEYWORD_TYPEDEF, { 1, 1, 1, 0, 1, 0, 1 } },
{ "typename", KEYWORD_TYPENAME, { 0, 1, 0, 0, 0, 0, 0 } },
{ "uint", KEYWORD_UINT, { 0, 0, 1, 0, 0, 1, 1 } },
{ "ulong", KEYWORD_ULONG, { 0, 0, 1, 0, 0, 1, 1 } },
{ "union", KEYWORD_UNION, { 1, 1, 0, 0, 0, 0, 1 } },
{ "unsigned", KEYWORD_UNSIGNED, { 1, 1, 1, 0, 0, 0, 1 } },
{ "ushort", KEYWORD_USHORT, { 0, 0, 1, 0, 0, 1, 1 } },
{ "using", KEYWORD_USING, { 0, 1, 1, 0, 0, 1, 0 } },
{ "version", KEYWORD_NAMESPACE, { 0, 0, 0, 0, 0, 0, 1 } }, /* hack to ignore version */
{ "virtual", KEYWORD_VIRTUAL, { 0, 1, 1, 0, 1, 1, 0 } },
{ "void", KEYWORD_VOID, { 1, 1, 1, 1, 1, 1, 1 } },
{ "volatile", KEYWORD_VOLATILE, { 1, 1, 1, 1, 0, 0, 1 } },
{ "wchar_t", KEYWORD_WCHAR_T, { 1, 1, 1, 0, 0, 0, 1 } },
{ "weak", KEYWORD_WEAK, { 0, 0, 0, 0, 0, 1, 0 } },
{ "while", KEYWORD_WHILE, { 1, 1, 1, 1, 0, 1, 1 } }
};
/*
* FUNCTION PROTOTYPES
*/
static void createTags (const unsigned int nestLevel, statementInfo *const parent);
static void copyToken (tokenInfo *const dest, const tokenInfo *const src);
static const char *getVarType (const statementInfo *const st);
/*
* FUNCTION DEFINITIONS
*/
/* Debugging functions added by Biswa */
#if defined(DEBUG_C) && DEBUG_C
static char *tokenTypeName[] = {
"none", "args", "'}'", "'{'", "','", "'::'", "keyword", "name",
"package", "paren-name", "';'", "spec", "*", "[]", "count"
};
static char *tagScopeNames[] = {
"global", "static", "extern", "friend", "typedef", "count"};
static char *declTypeNames[] = {
"none", "base", "class", "enum", "function", "ignore", "interface",
"namespace", "nomangle", "package", "struct", "union", "count"};
static char *impTypeNames[] = {
"default", "abstract", "virtual", "pure-virtual", "count"};
void printToken(const tokenInfo *const token)
{
fprintf(stderr, "Type: %s, Keyword: %d, name: %s\n", tokenTypeName[token->type],
token->keyword, vStringValue(token->name));
}
void printTagEntry(const tagEntryInfo *tag)
{
fprintf(stderr, "Tag: %s (%s) [ impl: %s, scope: %s, type: %s\n", tag->name,
tag->kindName, tag->extensionFields.implementation, tag->extensionFields.scope[1],
tag->extensionFields.varType);
}
void printStatement(const statementInfo *const statement)
{
int i;
statementInfo *st = (statementInfo *) statement;
while (NULL != st)
{
fprintf(stderr, "Statement Info:\n------------------------\n");
fprintf(stderr, "scope: %s, decl: %s, impl: %s\n", tagScopeNames[st->scope],
declTypeNames[st->declaration], impTypeNames[st->implementation]);
for (i=0; i < NumTokens; ++i)
{
fprintf(stderr, "Token %d %s: ", i, (i == st->tokenIndex)?"(current)":"");
printToken(st->token[i]);
}
fprintf(stderr, "Context: ");
printToken(st->context);
fprintf(stderr, "Block: ");
printToken(st->blockName);
fprintf(stderr, "Parent classes: %s\n", vStringValue(st->parentClasses));
fprintf(stderr, "First token: ");
printToken(st->firstToken);
if (NULL != st->parent)
fprintf(stderr, "Printing Parent:\n");
st = st->parent;
}
fprintf(stderr, "-----------------------------------------------\n");
}
#endif
extern boolean includingDefineTags (void)
{
return CKinds [CK_DEFINE].enabled;
}
/*
* Token management
*/
static void initToken (tokenInfo* const token)
{
token->type = TOKEN_NONE;
token->keyword = KEYWORD_NONE;
token->lineNumber = getSourceLineNumber();
if (useFile())
token->filePosition = getInputFilePosition();
else
token->bufferPosition = getInputBufferPosition();
vStringClear(token->name);
}
static void advanceToken (statementInfo* const st)
{
if (st->tokenIndex >= (unsigned int) NumTokens - 1)
st->tokenIndex = 0;
else
++st->tokenIndex;
initToken(st->token[st->tokenIndex]);
}
static tokenInfo *prevToken (const statementInfo *const st, unsigned int n)
{
unsigned int tokenIndex;
unsigned int num = (unsigned int) NumTokens;
Assert(n < num);
tokenIndex = (st->tokenIndex + num - n) % num;
return st->token[tokenIndex];
}
static void setToken (statementInfo *const st, const tokenType type)
{
tokenInfo *token;
token = activeToken (st);
initToken(token);
token->type = type;
}
static void retardToken (statementInfo *const st)
{
if (st->tokenIndex == 0)
st->tokenIndex = (unsigned int) NumTokens - 1;
else
--st->tokenIndex;
setToken(st, TOKEN_NONE);
}
static tokenInfo *newToken (void)
{
tokenInfo *const token = xMalloc (1, tokenInfo);
token->name = vStringNew();
initToken(token);
return token;
}
static void deleteToken (tokenInfo *const token)
{
if (token != NULL)
{
vStringDelete(token->name);
eFree(token);
}
}
static const char *accessString (const accessType laccess)
{
static const char *const names [] ={
"?", "private", "protected", "public", "default"
};
Assert (sizeof (names) / sizeof (names [0]) == ACCESS_COUNT);
Assert ((int) laccess < ACCESS_COUNT);
return names[(int) laccess];
}
static const char *implementationString (const impType imp)
{
static const char *const names [] ={
"?", "abstract", "virtual", "pure virtual"
};
Assert (sizeof (names) / sizeof (names [0]) == IMP_COUNT);
Assert ((int) imp < IMP_COUNT);
return names [(int) imp];
}
/*
* Debugging functions
*/
#ifdef TM_DEBUG
#define boolString(c) ((c) ? "TRUE" : "FALSE")
static const char *tokenString (const tokenType type)
{
static const char *const names [] = {
"none", "args", "}", "{", "comma", "double colon", "keyword", "name",
"package", "paren-name", "semicolon", "specifier", "*", "[]", "count"
};
Assert (sizeof (names) / sizeof (names [0]) == TOKEN_COUNT);
Assert ((int) type < TOKEN_COUNT);
return names[(int) type];
}
static const char *scopeString (const tagScope scope)
{
static const char *const names [] = {
"global", "static", "extern", "friend", "typedef"
};
Assert (sizeof (names) / sizeof (names [0]) == SCOPE_COUNT);
Assert ((int) scope < SCOPE_COUNT);
return names[(int) scope];
}
static const char *declString (const declType declaration)
{
static const char *const names [] = {
"?", "base", "class", "enum", "function", "ignore", "interface",
"namespace", "no mangle", "package", "struct", "union",
};
Assert (sizeof (names) / sizeof (names [0]) == DECL_COUNT);
Assert ((int) declaration < DECL_COUNT);
return names[(int) declaration];
}
static const char *keywordString (const keywordId keyword)
{
const size_t count = sizeof (KeywordTable) / sizeof (KeywordTable [0]);
const char *name = "none";
size_t i;
for (i = 0 ; i < count ; ++i)
{
const keywordDesc *p = &KeywordTable[i];
if (p->id == keyword)
{
name = p->name;
break;
}
}
return name;
}
static void __unused__ pt (tokenInfo *const token)
{
if (isType (token, TOKEN_NAME))
printf("type: %-12s: %-13s line: %lu\n",
tokenString (token->type), vStringValue (token->name),
token->lineNumber);
else if (isType (token, TOKEN_KEYWORD))
printf("type: %-12s: %-13s line: %lu\n",
tokenString (token->type), keywordString (token->keyword),
token->lineNumber);
else
printf("type: %-12s line: %lu\n",
tokenString (token->type), token->lineNumber);
}
static void __unused__ ps (statementInfo *const st)
{
unsigned int i;
printf("scope: %s decl: %s gotName: %s gotParenName: %s\n",
scopeString (st->scope), declString (st->declaration),
boolString (st->gotName), boolString (st->gotParenName));
printf("haveQualifyingName: %s\n", boolString (st->haveQualifyingName));
printf("access: %s default: %s\n", accessString (st->member.access),
accessString (st->member.accessDefault));
printf("token : ");
pt(activeToken (st));
for (i = 1 ; i < (unsigned int) NumTokens ; ++i)
{
printf("prev %u : ", i);
pt(prevToken (st, i));
}
printf("context: ");
pt(st->context);
}
#endif
/*
* Statement management
*/
static boolean isDataTypeKeyword (const tokenInfo *const token)
{
switch (token->keyword)
{
case KEYWORD_BOOLEAN:
case KEYWORD_BYTE:
case KEYWORD_CHAR:
case KEYWORD_DOUBLE:
case KEYWORD_FLOAT:
case KEYWORD_INT:
case KEYWORD_LONG:
case KEYWORD_SHORT:
case KEYWORD_VOID:
case KEYWORD_WCHAR_T:
case KEYWORD_SIZE_T:
return TRUE;
default:
return FALSE;
}
}
#if 0
static boolean isVariableKeyword (const tokenInfo *const token)
{
switch (token->keyword)
{
case KEYWORD_CONST:
case KEYWORD_EXTERN:
case KEYWORD_REGISTER:
case KEYWORD_STATIC:
case KEYWORD_VIRTUAL:
case KEYWORD_SIGNED:
case KEYWORD_UNSIGNED:
return TRUE;
default:
return FALSE;
}
}
#endif
static boolean isContextualKeyword (const tokenInfo *const token)
{
boolean result;
switch (token->keyword)
{
case KEYWORD_CLASS:
case KEYWORD_ENUM:
case KEYWORD_INTERFACE:
case KEYWORD_NAMESPACE:
case KEYWORD_STRUCT:
case KEYWORD_UNION:
{
result = TRUE;
break;
}
default:
{
result = FALSE;
break;
}
}
return result;
}
static boolean isContextualStatement (const statementInfo *const st)
{
boolean result = FALSE;
if (st != NULL)
{
if (isLanguage (Lang_vala))
{
/* All can be a contextual statment as properties can be of any type */
result = TRUE;
}
else
{
switch (st->declaration)
{
case DECL_CLASS:
case DECL_ENUM:
case DECL_INTERFACE:
case DECL_NAMESPACE:
case DECL_STRUCT:
case DECL_UNION:
{
result = TRUE;
break;
}
default:
{
result = FALSE;
break;
}
}
}
}
return result;
}
static boolean isMember (const statementInfo *const st)
{
boolean result;
if (isType (st->context, TOKEN_NAME))
result = TRUE;
else
result = isContextualStatement (st->parent);
return result;
}
static void initMemberInfo (statementInfo *const st)
{
accessType accessDefault = ACCESS_UNDEFINED;
if (st->parent != NULL) switch (st->parent->declaration)
{
case DECL_ENUM:
case DECL_NAMESPACE:
{
accessDefault = ACCESS_UNDEFINED;
break;
}
case DECL_CLASS:
{
if (isLanguage (Lang_java))
accessDefault = ACCESS_DEFAULT;
else
accessDefault = ACCESS_PRIVATE;
break;
}
case DECL_INTERFACE:
case DECL_STRUCT:
case DECL_UNION:
{
accessDefault = ACCESS_PUBLIC;
break;
}
default:
break;
}
st->member.accessDefault = accessDefault;
st->member.access = accessDefault;
}
static void reinitStatement (statementInfo *const st, const boolean partial)
{
unsigned int i;
if (! partial)
{
st->scope = SCOPE_GLOBAL;
if (isContextualStatement (st->parent))
st->declaration = DECL_BASE;
else
st->declaration = DECL_NONE;
}
st->gotParenName = FALSE;
st->implementation = IMP_DEFAULT;
st->gotArgs = FALSE;
st->gotName = FALSE;
st->haveQualifyingName = FALSE;
st->argEndPosition = 0;
st->tokenIndex = 0;
for (i = 0 ; i < (unsigned int) NumTokens ; ++i)
{
initToken (st->token [i]);
}
initToken (st->context);
initToken (st->blockName);
vStringClear (st->parentClasses);
/* Init member info.
*/
if (! partial)
st->member.access = st->member.accessDefault;
/* Init first token */
if (!partial)
initToken(st->firstToken);
}
static void reinitStatementWithToken (statementInfo *const st,
tokenInfo *token, const boolean partial)
{
tokenInfo *const save = newToken ();
/* given token can be part of reinit statementInfo */
copyToken (save, token);
reinitStatement (st, partial);
token = activeToken (st);
copyToken (token, save);
deleteToken (save);
++st->tokenIndex; /* this is quite save becouse current tokenIndex = 0 */
}
static void initStatement (statementInfo *const st, statementInfo *const parent)
{
st->parent = parent;
initMemberInfo (st);
reinitStatement (st, FALSE);
if(parent)
{
const tokenInfo *const src = activeToken (parent);
tokenInfo *const dst = activeToken (st);
copyToken (dst, src);
st->tokenIndex++;
}
}
/*
* Tag generation functions
*/
static cKind cTagKind (const tagType type)
{
cKind result = CK_UNDEFINED;
switch (type)
{
case TAG_CLASS: result = CK_CLASS; break;
case TAG_ENUM: result = CK_ENUMERATION; break;
case TAG_ENUMERATOR: result = CK_ENUMERATOR; break;
case TAG_FUNCTION: result = CK_FUNCTION; break;
case TAG_INTERFACE: result = CK_INTERFACE; break;
case TAG_MEMBER: result = CK_MEMBER; break;
case TAG_NAMESPACE: result = CK_NAMESPACE; break;
case TAG_PROTOTYPE: result = CK_PROTOTYPE; break;
case TAG_STRUCT: result = CK_STRUCT; break;
case TAG_TYPEDEF: result = CK_TYPEDEF; break;
case TAG_UNION: result = CK_UNION; break;
case TAG_VARIABLE: result = CK_VARIABLE; break;
case TAG_EXTERN_VAR: result = CK_EXTERN_VARIABLE; break;
default: Assert ("Bad C tag type" == NULL); break;
}
return result;
}
static csharpKind csharpTagKind (const tagType type)
{
csharpKind result = CSK_UNDEFINED;
switch (type)
{
case TAG_CLASS: result = CSK_CLASS; break;
case TAG_ENUM: result = CSK_ENUMERATION; break;
case TAG_ENUMERATOR: result = CSK_ENUMERATOR; break;
case TAG_EVENT: result = CSK_EVENT; break;
case TAG_FIELD: result = CSK_FIELD ; break;
case TAG_INTERFACE: result = CSK_INTERFACE; break;
case TAG_LOCAL: result = CSK_LOCAL; break;
case TAG_METHOD: result = CSK_METHOD; break;
case TAG_NAMESPACE: result = CSK_NAMESPACE; break;
case TAG_PROPERTY: result = CSK_PROPERTY; break;
case TAG_STRUCT: result = CSK_STRUCT; break;
case TAG_TYPEDEF: result = CSK_TYPEDEF; break;
default: Assert ("Bad C# tag type" == NULL); break;
}
return result;
}
static valaKind valaTagKind (const tagType type)
{
valaKind result = VK_UNDEFINED;
switch (type)
{
case TAG_CLASS: result = VK_CLASS; break;
case TAG_ENUM: result = VK_ENUMERATION; break;
case TAG_ENUMERATOR: result = VK_ENUMERATOR; break;
case TAG_SIGNAL: result = VK_SIGNAL; break;
case TAG_FIELD: result = VK_FIELD ; break;
case TAG_INTERFACE: result = VK_INTERFACE; break;
case TAG_LOCAL: result = VK_LOCAL; break;
case TAG_METHOD: result = VK_METHOD; break;
case TAG_NAMESPACE: result = VK_NAMESPACE; break;
case TAG_PROPERTY: result = VK_PROPERTY; break;
case TAG_STRUCT: result = VK_STRUCT; break;
default: Assert ("Bad Vala tag type" == NULL); break;
}
return result;
}
static javaKind javaTagKind (const tagType type)
{
javaKind result = JK_UNDEFINED;
switch (type)
{
case TAG_CLASS: result = JK_CLASS; break;
case TAG_FIELD: result = JK_FIELD; break;
case TAG_INTERFACE: result = JK_INTERFACE; break;
case TAG_METHOD: result = JK_METHOD; break;
case TAG_PACKAGE: result = JK_PACKAGE; break;
default: Assert ("Bad Java tag type" == NULL); break;
}
return result;
}
static const char *tagName (const tagType type)
{
const char* result;
if (isLanguage (Lang_java))
result = JavaKinds [javaTagKind (type)].name;
else if (isLanguage (Lang_csharp))
result = CsharpKinds [csharpTagKind (type)].name;
else if (isLanguage (Lang_vala))
result = ValaKinds [valaTagKind (type)].name;
else
result = CKinds [cTagKind (type)].name;
return result;
}
static int tagLetter (const tagType type)
{
int result;
if (isLanguage (Lang_csharp))
result = CsharpKinds [csharpTagKind (type)].letter;
else if (isLanguage (Lang_java))
result = JavaKinds [javaTagKind (type)].letter;
else if (isLanguage (Lang_vala))
result = ValaKinds [valaTagKind (type)].letter;
else
result = CKinds [cTagKind (type)].letter;
return result;
}
/*
static boolean includeTag (const tagType type, const boolean isFileScope)
{
boolean result;
if (isFileScope && ! Option.include.fileScope)
result = FALSE;
else if (isLanguage (Lang_java))
result = JavaKinds [javaTagKind (type)].enabled;
else
result = CKinds [cTagKind (type)].enabled;
return result;
}
*/
static tagType declToTagType (const declType declaration)
{
tagType type = TAG_UNDEFINED;
switch (declaration)
{
case DECL_CLASS: type = TAG_CLASS; break;
case DECL_ENUM: type = TAG_ENUM; break;
case DECL_FUNCTION: type = TAG_FUNCTION; break;
case DECL_INTERFACE:type = TAG_INTERFACE; break;
case DECL_NAMESPACE:type = TAG_NAMESPACE; break;
case DECL_STRUCT: type = TAG_STRUCT; break;
case DECL_UNION: type = TAG_UNION; break;
default: Assert ("Unexpected declaration" == NULL); break;
}
return type;
}
static const char* accessField (const statementInfo *const st)
{
const char* result = NULL;
if ((isLanguage (Lang_cpp) || isLanguage (Lang_d) || isLanguage (Lang_ferite)) &&
st->scope == SCOPE_FRIEND)
result = "friend";
else if (st->member.access != ACCESS_UNDEFINED)
result = accessString (st->member.access);
return result;
}
static void addOtherFields (tagEntryInfo* const tag, const tagType type,
const statementInfo *const st, vString *const scope)
{
/* For selected tag types, append an extension flag designating the
* parent object in which the tag is defined.
*/
switch (type)
{
default: break;
case TAG_CLASS:
case TAG_ENUM:
case TAG_ENUMERATOR:
case TAG_FIELD:
case TAG_FUNCTION:
case TAG_INTERFACE:
case TAG_MEMBER:
case TAG_METHOD:
case TAG_PROTOTYPE:
case TAG_STRUCT:
case TAG_TYPEDEF:
case TAG_UNION:
{
if (vStringLength (scope) > 0 &&
(isMember (st) || st->parent->declaration == DECL_NAMESPACE))
{
if (isType (st->context, TOKEN_NAME))
tag->extensionFields.scope [0] = tagName (TAG_CLASS);
else
tag->extensionFields.scope [0] =
tagName (declToTagType (parentDecl (st)));
tag->extensionFields.scope [1] = vStringValue (scope);
}
if ((type == TAG_CLASS || type == TAG_INTERFACE ||
type == TAG_STRUCT) && vStringLength (st->parentClasses) > 0)
{
tag->extensionFields.inheritance =
vStringValue (st->parentClasses);
}
if (st->implementation != IMP_DEFAULT &&
(isLanguage (Lang_cpp) || isLanguage (Lang_csharp) || isLanguage (Lang_vala) ||
isLanguage (Lang_java) || isLanguage (Lang_d) || isLanguage (Lang_ferite)))
{
tag->extensionFields.implementation =
implementationString (st->implementation);
}
if (isMember (st))
{
tag->extensionFields.access = accessField (st);
}
if ((TRUE == st->gotArgs) && (TRUE == Option.extensionFields.argList) &&
((TAG_FUNCTION == type) || (TAG_METHOD == type) || (TAG_PROTOTYPE == type)))
{
if (useFile())
{
tag->extensionFields.arglist = getArglistFromFilePos(
tag->filePosition, tag->name);
}
else
{
tag->extensionFields.arglist = getArglistFromBufferPos(
tag->bufferPosition, tag->name);
}
}
break;
}
}
if ((TAG_FIELD == tag->type) || (TAG_MEMBER == tag->type) ||
(TAG_EXTERN_VAR == tag->type) || (TAG_TYPEDEF == tag->type) ||
(TAG_VARIABLE == tag->type) || (TAG_METHOD == tag->type) ||
(TAG_PROTOTYPE == tag->type) || (TAG_FUNCTION == tag->type))
{
if (((TOKEN_NAME == st->firstToken->type) || isDataTypeKeyword(st->firstToken))
&& (0 != strcmp(vStringValue(st->firstToken->name), tag->name)))
{
tag->extensionFields.varType = getVarType(st);
}
}
}
static const char *getVarType (const statementInfo *const st)
{
static vString *vt = NULL;
unsigned int i;
if (! st->gotArgs)
return vStringValue(st->firstToken->name); /* ignore non-functions */
if (vt == NULL)
vt = vStringNew();
else
vStringClear(vt);
for (i = 0; i < st->tokenIndex; i++)
{
tokenInfo *t = st->token[i];
switch (t->type)
{
case TOKEN_NAME: /* user typename */
if (strcmp(vStringValue(t->name), vStringValue(st->firstToken->name)) != 0)
continue;
break;
case TOKEN_KEYWORD:
if (t->keyword != KEYWORD_EXTERN && t->keyword != KEYWORD_STATIC) /* uninteresting keywords */
break;
continue;
case TOKEN_STAR: vStringCatS(vt, " *"); continue;
case TOKEN_ARRAY: vStringCatS(vt, "[]"); continue;
default: continue;
}
if (vStringLength(vt) > 0)
if (isalpha(vStringValue(vt)[vStringLength(vt) - 1]))
vStringPut(vt, ' ');
vStringCat(vt, t->name);
}
vStringTerminate(vt);
return vStringValue(vt);
}
static void addContextSeparator (vString *const scope)
{
if (isLanguage (Lang_c) || isLanguage (Lang_cpp))
vStringCatS (scope, "::");
else if (isLanguage (Lang_java) || isLanguage (Lang_d) || isLanguage (Lang_ferite) ||
isLanguage (Lang_csharp) || isLanguage (Lang_vala))
vStringCatS (scope, ".");
}
static void findScopeHierarchy (vString *const string,
const statementInfo *const st)
{
const char* const anon = "<anonymous>";
boolean nonAnonPresent = FALSE;
vStringClear (string);
if (isType (st->context, TOKEN_NAME))
{
vStringCopy (string, st->context->name);
nonAnonPresent = TRUE;
}
if (st->parent != NULL)
{
vString *temp = vStringNew ();
const statementInfo *s;
for (s = st->parent ; s != NULL ; s = s->parent)
{
if (isContextualStatement (s) ||
s->declaration == DECL_NAMESPACE)
{
vStringCopy (temp, string);
vStringClear (string);
if (isType (s->blockName, TOKEN_NAME))
{
if (isType (s->context, TOKEN_NAME) &&
vStringLength (s->context->name) > 0)
{
vStringCat (string, s->context->name);
addContextSeparator (string);
}
vStringCat (string, s->blockName->name);
nonAnonPresent = TRUE;
}
else
vStringCopyS (string, anon);
if (vStringLength (temp) > 0)
addContextSeparator (string);
vStringCat (string, temp);
}
}
vStringDelete (temp);
if (! nonAnonPresent)
vStringClear (string);
}
}
static void makeExtraTagEntry (const tagType type, tagEntryInfo *const e,
vString *const scope)
{
if (Option.include.qualifiedTags &&
scope != NULL && vStringLength (scope) > 0)
{
vString *const scopedName = vStringNew ();
if (type != TAG_ENUMERATOR)
vStringCopy (scopedName, scope);
else
{
/* remove last component (i.e. enumeration name) from scope */
const char* const sc = vStringValue (scope);
const char* colon = strrchr (sc, ':');
if (colon != NULL)
{
while (*colon == ':' && colon > sc)
--colon;
vStringNCopy (scopedName, scope, colon + 1 - sc);
}
}
if (vStringLength (scopedName) > 0)
{
addContextSeparator (scopedName);
vStringCatS (scopedName, e->name);
e->name = vStringValue (scopedName);
makeTagEntry (e);
}
vStringDelete (scopedName);
}
}
static void makeTag (const tokenInfo *const token,
const statementInfo *const st,
boolean isFileScope, const tagType type)
{
#ifdef DEBUG_C
printToken(token);
fprintf(stderr, "<<<<<<<<<<<<<<<<<>>>>>>>>>>>>>>>>\n");
printStatement(st);
#endif
/* Nothing is really of file scope when it appears in a header file.
*/
isFileScope = (boolean) (isFileScope && ! isHeaderFile ());
if (isType (token, TOKEN_NAME) && vStringLength (token->name) > 0 /* &&
includeTag (type, isFileScope) */)
{
vString *scope = vStringNew ();
tagEntryInfo e;
/* take only functions which are introduced by "function ..." */
if (type == TAG_FUNCTION && isLanguage (Lang_ferite) &&
strncmp("function", st->firstToken->name->buffer, 8) != 0)
{
return;
}
initTagEntry (&e, vStringValue (token->name));
e.lineNumber = token->lineNumber;
if (useFile())
e.filePosition = token->filePosition;
else
e.bufferPosition = token->bufferPosition;
e.isFileScope = isFileScope;
e.kindName = tagName (type);
e.kind = tagLetter (type);
e.type = type;
findScopeHierarchy (scope, st);
addOtherFields (&e, type, st, scope);
#ifdef DEBUG_C
printTagEntry(&e);
#endif
makeTagEntry (&e);
if (NULL != TagEntryFunction)
makeExtraTagEntry (type, &e, scope);
vStringDelete (scope);
if (NULL != e.extensionFields.arglist)
free((char *) e.extensionFields.arglist);
}
}
static boolean isValidTypeSpecifier (const declType declaration)
{
boolean result;
switch (declaration)
{
case DECL_BASE:
case DECL_CLASS:
case DECL_ENUM:
case DECL_STRUCT:
case DECL_UNION:
result = TRUE;
break;
default:
result = FALSE;
break;
}
return result;
}
static void qualifyEnumeratorTag (const statementInfo *const st,
const tokenInfo *const nameToken)
{
if (isType (nameToken, TOKEN_NAME))
makeTag (nameToken, st, TRUE, TAG_ENUMERATOR);
}
static void qualifyFunctionTag (const statementInfo *const st,
const tokenInfo *const nameToken)
{
if (isType (nameToken, TOKEN_NAME))
{
const tagType type = (isLanguage (Lang_java) || isLanguage (Lang_csharp) || isLanguage (Lang_vala))
? TAG_METHOD : TAG_FUNCTION;
const boolean isFileScope =
(boolean) (st->member.access == ACCESS_PRIVATE ||
(!isMember (st) && st->scope == SCOPE_STATIC));
makeTag (nameToken, st, isFileScope, type);
}
}
static void qualifyFunctionDeclTag (const statementInfo *const st,
const tokenInfo *const nameToken)
{
if (! isType (nameToken, TOKEN_NAME))
;
else if (isLanguage (Lang_java) || isLanguage (Lang_csharp) || isLanguage (Lang_vala))
qualifyFunctionTag (st, nameToken);
else if (st->scope == SCOPE_TYPEDEF)
makeTag (nameToken, st, TRUE, TAG_TYPEDEF);
else if (isValidTypeSpecifier (st->declaration) &&
! (isLanguage (Lang_csharp) || isLanguage (Lang_vala)))
makeTag (nameToken, st, TRUE, TAG_PROTOTYPE);
}
static void qualifyCompoundTag (const statementInfo *const st,
const tokenInfo *const nameToken)
{
if (isType (nameToken, TOKEN_NAME))
{
const tagType type = declToTagType (st->declaration);
if (type != TAG_UNDEFINED)
makeTag (nameToken, st, (boolean) (! isLanguage (Lang_java) &&
! isLanguage (Lang_csharp) &&
! isLanguage (Lang_vala)), type);
}
}
static void qualifyBlockTag (statementInfo *const st,
const tokenInfo *const nameToken)
{
switch (st->declaration)
{
case DECL_CLASS:
case DECL_ENUM:
case DECL_INTERFACE:
case DECL_NAMESPACE:
case DECL_STRUCT:
case DECL_UNION:
qualifyCompoundTag (st, nameToken);
break;
default: break;
}
}
static void qualifyVariableTag (const statementInfo *const st,
const tokenInfo *const nameToken)
{
/* We have to watch that we do not interpret a declaration of the
* form "struct tag;" as a variable definition. In such a case, the
* token preceding the name will be a keyword.
*/
if (! isType (nameToken, TOKEN_NAME))
;
else if (st->declaration == DECL_IGNORE)
;
else if (st->scope == SCOPE_TYPEDEF)
makeTag (nameToken, st, TRUE, TAG_TYPEDEF);
else if (st->declaration == DECL_PACKAGE)
makeTag (nameToken, st, FALSE, TAG_PACKAGE);
else if (st->declaration == DECL_MODULE) /* handle modules in D as namespaces */
makeTag (nameToken, st, FALSE, TAG_NAMESPACE);
else if (isValidTypeSpecifier (st->declaration))
{
if (isMember (st))
{
if (isLanguage (Lang_java) || isLanguage (Lang_csharp) || isLanguage (Lang_vala))
makeTag (nameToken, st, (boolean) (st->member.access == ACCESS_PRIVATE), TAG_FIELD);
else if (st->scope == SCOPE_GLOBAL || st->scope == SCOPE_STATIC)
makeTag (nameToken, st, TRUE, TAG_MEMBER);
}
else if (isLanguage (Lang_java) || isLanguage (Lang_csharp) || isLanguage (Lang_vala));
else
{
if (st->scope == SCOPE_EXTERN || ! st->haveQualifyingName)
makeTag (nameToken, st, FALSE, TAG_EXTERN_VAR);
else
makeTag (nameToken, st, (boolean) (st->scope == SCOPE_STATIC), TAG_VARIABLE);
}
}
}
/*
* Parsing functions
*/
static int skipToOneOf (const char *const chars)
{
int c;
do
c = cppGetc ();
while (c != EOF && c != '\0' && strchr (chars, c) == NULL);
return c;
}
/* Skip to the next non-white character.
*/
static int skipToNonWhite (void)
{
int c;
do
{
c = cppGetc ();
}
while (isspace (c));
return c;
}
/* Skips to the next brace in column 1. This is intended for cases where
* preprocessor constructs result in unbalanced braces.
*/
static void skipToFormattedBraceMatch (void)
{
int c, next;
c = cppGetc ();
next = cppGetc ();
while (c != EOF && (c != '\n' || next != '}'))
{
c = next;
next = cppGetc ();
}
}
/* Skip to the matching character indicated by the pair string. If skipping
* to a matching brace and any brace is found within a different level of a
* #if conditional statement while brace formatting is in effect, we skip to
* the brace matched by its formatting. It is assumed that we have already
* read the character which starts the group (i.e. the first character of
* "pair").
*/
static void skipToMatch (const char *const pair)
{
const boolean braceMatching = (boolean) (strcmp ("{}", pair) == 0);
const boolean braceFormatting = (boolean) (isBraceFormat () && braceMatching);
const unsigned int initialLevel = getDirectiveNestLevel ();
const int begin = pair [0], end = pair [1];
const unsigned long inputLineNumber = getInputLineNumber ();
int matchLevel = 1;
int c = '\0';
while (matchLevel > 0 && (c = cppGetc ()) != EOF)
{
if (c == begin)
{
++matchLevel;
if (braceFormatting && getDirectiveNestLevel () != initialLevel)
{
skipToFormattedBraceMatch ();
break;
}
}
else if (c == end)
{
--matchLevel;
if (braceFormatting && getDirectiveNestLevel () != initialLevel)
{
skipToFormattedBraceMatch ();
break;
}
}
}
if (c == EOF)
{
verbose ("%s: failed to find match for '%c' at line %lu\n",
getInputFileName (), begin, inputLineNumber);
if (braceMatching)
longjmp (Exception, (int) ExceptionBraceFormattingError);
else
longjmp (Exception, (int) ExceptionFormattingError);
}
}
static void skipParens (void)
{
const int c = skipToNonWhite ();
if (c == '(')
skipToMatch ("()");
else
cppUngetc (c);
}
static void skipBraces (void)
{
const int c = skipToNonWhite ();
if (c == '{')
skipToMatch ("{}");
else
cppUngetc (c);
}
static keywordId analyzeKeyword (const char *const name)
{
const keywordId id = (keywordId) lookupKeyword (name, getSourceLanguage ());
return id;
}
static void analyzeIdentifier (tokenInfo *const token)
{
char *const name = vStringValue (token->name);
const char *replacement = NULL;
boolean parensToo = FALSE;
if (isLanguage (Lang_java) ||
! isIgnoreToken (name, &parensToo, &replacement))
{
if (replacement != NULL)
token->keyword = analyzeKeyword (replacement);
else
token->keyword = analyzeKeyword (vStringValue (token->name));
if (token->keyword == KEYWORD_NONE)
token->type = TOKEN_NAME;
else
token->type = TOKEN_KEYWORD;
}
else
{
initToken (token);
if (parensToo)
{
int c = skipToNonWhite ();
if (c == '(')
skipToMatch ("()");
}
}
}
static void readIdentifier (tokenInfo *const token, const int firstChar)
{
vString *const name = token->name;
int c = firstChar;
initToken (token);
/* Bug #1585745 (CTags): strangely, C++ destructors allow whitespace between
* the ~ and the class name. */
if (isLanguage (Lang_cpp) && firstChar == '~')
{
vStringPut (name, c);
c = skipToNonWhite ();
}
do
{
vStringPut (name, c);
c = cppGetc ();
} while (isident (c) || (isLanguage (Lang_vala) && '.' == c));
vStringTerminate (name);
cppUngetc (c); /* unget non-identifier character */
/* Vala supports '?' at end of a type (with or without whitspace before) for nullable types */
if (isLanguage (Lang_vala))
{
c = skipToNonWhite ();
if ('?' == c)
vStringPut (name, c);
else
cppUngetc (c);
}
analyzeIdentifier (token);
}
static void readPackageName (tokenInfo *const token, const int firstChar)
{
vString *const name = token->name;
int c = firstChar;
initToken (token);
while (isident (c) || c == '.')
{
vStringPut (name, c);
c = cppGetc ();
}
vStringTerminate (name);
cppUngetc (c); /* unget non-package character */
}
static void readPackageOrNamespace (statementInfo *const st, const declType declaration)
{
st->declaration = declaration;
if (declaration == DECL_NAMESPACE && !(isLanguage (Lang_csharp) || isLanguage (Lang_vala)))
{
/* In C++ a namespace is specified one level at a time. */
return;
}
else
{
/* In C#, a namespace can also be specified like a Java package name. */
tokenInfo *const token = activeToken (st);
Assert (isType (token, TOKEN_KEYWORD));
readPackageName (token, skipToNonWhite ());
token->type = TOKEN_NAME;
st->gotName = TRUE;
st->haveQualifyingName = TRUE;
}
}
static void readPackage (statementInfo *const st)
{
tokenInfo *const token = activeToken (st);
Assert (isType (token, TOKEN_KEYWORD));
readPackageName (token, skipToNonWhite ());
token->type = TOKEN_NAME;
if (isLanguage (Lang_d))
st->declaration = DECL_MODULE;
else
st->declaration = DECL_PACKAGE;
st->gotName = TRUE;
st->haveQualifyingName = TRUE;
}
static void processName (statementInfo *const st)
{
Assert (isType (activeToken (st), TOKEN_NAME));
if (st->gotName && st->declaration == DECL_NONE)
st->declaration = DECL_BASE;
st->gotName = TRUE;
st->haveQualifyingName = TRUE;
}
static void readOperator (statementInfo *const st)
{
const char *const acceptable = "+-*/%^&|~!=<>,[]";
const tokenInfo* const prev = prevToken (st,1);
tokenInfo *const token = activeToken (st);
vString *const name = token->name;
int c = skipToNonWhite ();
/* When we arrive here, we have the keyword "operator" in 'name'.
*/
if (isType (prev, TOKEN_KEYWORD) && (prev->keyword == KEYWORD_ENUM ||
prev->keyword == KEYWORD_STRUCT || prev->keyword == KEYWORD_UNION))
; /* ignore "operator" keyword if preceded by these keywords */
else if (c == '(')
{
/* Verify whether this is a valid function call (i.e. "()") operator.
*/
if (cppGetc () == ')')
{
vStringPut (name, ' '); /* always separate operator from keyword */
c = skipToNonWhite ();
if (c == '(')
vStringCatS (name, "()");
}
else
{
skipToMatch ("()");
c = cppGetc ();
}
}
else if (isident1 (c))
{
/* Handle "new" and "delete" operators, and conversion functions
* (per 13.3.1.1.2 [2] of the C++ spec).
*/
boolean whiteSpace = TRUE; /* default causes insertion of space */
do
{
if (isspace (c))
whiteSpace = TRUE;
else
{
if (whiteSpace)
{
vStringPut (name, ' ');
whiteSpace = FALSE;
}
vStringPut (name, c);
}
c = cppGetc ();
} while (! isOneOf (c, "(;") && c != EOF);
vStringTerminate (name);
}
else if (isOneOf (c, acceptable))
{
vStringPut (name, ' '); /* always separate operator from keyword */
do
{
vStringPut (name, c);
c = cppGetc ();
} while (isOneOf (c, acceptable));
vStringTerminate (name);
}
cppUngetc (c);
token->type = TOKEN_NAME;
token->keyword = KEYWORD_NONE;
processName (st);
}
static void copyToken (tokenInfo *const dest, const tokenInfo *const src)
{
dest->type = src->type;
dest->keyword = src->keyword;
if (useFile())
dest->filePosition = src->filePosition;
else
dest->bufferPosition = src->bufferPosition;
dest->lineNumber = src->lineNumber;
vStringCopy (dest->name, src->name);
}
static void setAccess (statementInfo *const st, const accessType laccess)
{
if (isMember (st))
{
if (isLanguage (Lang_cpp) || isLanguage (Lang_d) || isLanguage (Lang_ferite))
{
int c = skipToNonWhite ();
if (c == ':')
reinitStatementWithToken (st, prevToken (st, 1), FALSE);
else
cppUngetc (c);
st->member.accessDefault = laccess;
}
st->member.access = laccess;
}
}
static void discardTypeList (tokenInfo *const token)
{
int c = skipToNonWhite ();
while (isident1 (c))
{
readIdentifier (token, c);
c = skipToNonWhite ();
if (c == '.' || c == ',')
c = skipToNonWhite ();
}
cppUngetc (c);
}
static void addParentClass (statementInfo *const st, tokenInfo *const token)
{
if (vStringLength (token->name) > 0 &&
vStringLength (st->parentClasses) > 0)
{
vStringPut (st->parentClasses, ',');
}
vStringCat (st->parentClasses, token->name);
}
static void readParents (statementInfo *const st, const int qualifier)
{
tokenInfo *const token = newToken ();
tokenInfo *const parent = newToken ();
int c;
do
{
c = skipToNonWhite ();
if (isident1 (c))
{
readIdentifier (token, c);
if (isType (token, TOKEN_NAME))
vStringCat (parent->name, token->name);
else
{
addParentClass (st, parent);
initToken (parent);
}
}
else if (c == qualifier)
vStringPut (parent->name, c);
else if (c == '<')
skipToMatch ("<>");
else if (isType (token, TOKEN_NAME))
{
addParentClass (st, parent);
initToken (parent);
}
} while (c != '{' && c != EOF);
cppUngetc (c);
deleteToken (parent);
deleteToken (token);
}
static void processToken (tokenInfo *const token, statementInfo *const st)
{
switch (token->keyword) /* is it a reserved word? */
{
default: break;
case KEYWORD_NONE: processName (st); break;
case KEYWORD_ABSTRACT: st->implementation = IMP_ABSTRACT; break;
case KEYWORD_ATTRIBUTE: skipParens (); initToken (token); break;
case KEYWORD_CATCH: skipParens (); skipBraces (); break;
case KEYWORD_CHAR: st->declaration = DECL_BASE; break;
case KEYWORD_CLASS: st->declaration = DECL_CLASS; break;
case KEYWORD_CONST: st->declaration = DECL_BASE; break;
case KEYWORD_DOUBLE: st->declaration = DECL_BASE; break;
case KEYWORD_ENUM: st->declaration = DECL_ENUM; break;
case KEYWORD_EXTENDS: readParents (st, '.');
setToken (st, TOKEN_NONE); break;
case KEYWORD_FLOAT: st->declaration = DECL_BASE; break;
case KEYWORD_FRIEND: st->scope = SCOPE_FRIEND; break;
case KEYWORD_IMPLEMENTS:readParents (st, '.');
setToken (st, TOKEN_NONE); break;
case KEYWORD_IMPORT: st->declaration = DECL_IGNORE; break;
case KEYWORD_INT: st->declaration = DECL_BASE; break;
case KEYWORD_BOOLEAN: st->declaration = DECL_BASE; break;
case KEYWORD_WCHAR_T: st->declaration = DECL_BASE; break;
case KEYWORD_SIZE_T: st->declaration = DECL_BASE; break;
case KEYWORD_INTERFACE: st->declaration = DECL_INTERFACE; break;
case KEYWORD_LONG: st->declaration = DECL_BASE; break;
case KEYWORD_OPERATOR: readOperator (st); break;
case KEYWORD_MODULE: readPackage (st); break;
case KEYWORD_PRIVATE: setAccess (st, ACCESS_PRIVATE); break;
case KEYWORD_PROTECTED: setAccess (st, ACCESS_PROTECTED); break;
case KEYWORD_PUBLIC: setAccess (st, ACCESS_PUBLIC); break;
case KEYWORD_SHORT: st->declaration = DECL_BASE; break;
case KEYWORD_SIGNED: st->declaration = DECL_BASE; break;
case KEYWORD_STRUCT: st->declaration = DECL_STRUCT; break;
case KEYWORD_THROWS: discardTypeList (token); break;
case KEYWORD_TYPEDEF: st->scope = SCOPE_TYPEDEF; break;
case KEYWORD_UNION: st->declaration = DECL_UNION; break;
case KEYWORD_UNSIGNED: st->declaration = DECL_BASE; break;
case KEYWORD_USING: st->declaration = DECL_IGNORE; break;
case KEYWORD_VOID: st->declaration = DECL_BASE; break;
case KEYWORD_VOLATILE: st->declaration = DECL_BASE; break;
case KEYWORD_VIRTUAL: st->implementation = IMP_VIRTUAL; break;
case KEYWORD_NAMESPACE: readPackageOrNamespace (st, DECL_NAMESPACE); break;
case KEYWORD_PACKAGE: readPackageOrNamespace (st, DECL_PACKAGE); break;
case KEYWORD_EVENT:
{
if (isLanguage (Lang_csharp))
st->declaration = DECL_EVENT;
break;
}
case KEYWORD_SIGNAL:
{
if (isLanguage (Lang_vala))
st->declaration = DECL_SIGNAL;
break;
}
case KEYWORD_EXTERN:
{
if (! isLanguage (Lang_csharp) || !st->gotName)
{
/*reinitStatement (st, FALSE);*/
st->scope = SCOPE_EXTERN;
st->declaration = DECL_BASE;
}
break;
}
case KEYWORD_STATIC:
{
if (! isLanguage (Lang_java) && ! isLanguage (Lang_csharp) && ! isLanguage (Lang_vala))
{
/*reinitStatement (st, FALSE);*/
st->scope = SCOPE_STATIC;
st->declaration = DECL_BASE;
}
break;
}
}
}
/*
* Parenthesis handling functions
*/
static void restartStatement (statementInfo *const st)
{
tokenInfo *const save = newToken ();
tokenInfo *token = activeToken (st);
copyToken (save, token);
DebugStatement ( if (debug (DEBUG_PARSE)) printf ("<ES>");)
reinitStatement (st, FALSE);
token = activeToken (st);
copyToken (token, save);
deleteToken (save);
processToken (token, st);
}
/* Skips over a the mem-initializer-list of a ctor-initializer, defined as:
*
* mem-initializer-list:
* mem-initializer, mem-initializer-list
*
* mem-initializer:
* [::] [nested-name-spec] class-name (...)
* identifier
*/
static void skipMemIntializerList (tokenInfo *const token)
{
int c;
do
{
c = skipToNonWhite ();
while (isident1 (c) || c == ':')
{
if (c != ':')
readIdentifier (token, c);
c = skipToNonWhite ();
}
if (c == '<')
{
skipToMatch ("<>");
c = skipToNonWhite ();
}
if (c == '(')
{
skipToMatch ("()");
c = skipToNonWhite ();
}
} while (c == ',');
cppUngetc (c);
}
static void skipMacro (statementInfo *const st)
{
tokenInfo *const prev2 = prevToken (st, 2);
if (isType (prev2, TOKEN_NAME))
retardToken (st);
skipToMatch ("()");
}
/* Skips over characters following the parameter list. This will be either
* non-ANSI style function declarations or C++ stuff. Our choices:
*
* C (K&R):
* int func ();
* int func (one, two) int one; float two; {...}
* C (ANSI):
* int func (int one, float two);
* int func (int one, float two) {...}
* C++:
* int foo (...) [const|volatile] [throw (...)];
* int foo (...) [const|volatile] [throw (...)] [ctor-initializer] {...}
* int foo (...) [const|volatile] [throw (...)] try [ctor-initializer] {...}
* catch (...) {...}
*/
static boolean skipPostArgumentStuff (statementInfo *const st,
parenInfo *const info)
{
tokenInfo *const token = activeToken (st);
unsigned int parameters = info->parameterCount;
unsigned int elementCount = 0;
boolean restart = FALSE;
boolean end = FALSE;
int c = skipToNonWhite ();
do
{
switch (c)
{
case ')': break;
case ':': skipMemIntializerList (token);break; /* ctor-initializer */
case '[': skipToMatch ("[]"); break;
case '=': cppUngetc (c); end = TRUE; break;
case '{': cppUngetc (c); end = TRUE; break;
case '}': cppUngetc (c); end = TRUE; break;
case '(':
{
if (elementCount > 0)
++elementCount;
skipToMatch ("()");
break;
}
case ';':
{
if (parameters == 0 || elementCount < 2)
{
cppUngetc (c);
end = TRUE;
}
else if (--parameters == 0)
end = TRUE;
break;
}
default:
{
if (isident1 (c))
{
readIdentifier (token, c);
if (isLanguage(Lang_d))
{ /* parse D contracts */
switch (token->keyword)
{
case KEYWORD_IN:
case KEYWORD_OUT:
case KEYWORD_BODY:
token->keyword = KEYWORD_CONST;
default:
break;
}
}
switch (token->keyword)
{
case KEYWORD_ATTRIBUTE: skipParens (); break;
case KEYWORD_THROW: skipParens (); break;
case KEYWORD_CONST: break;
case KEYWORD_TRY: break;
case KEYWORD_VOLATILE: break;
case KEYWORD_CATCH: case KEYWORD_CLASS:
case KEYWORD_EXPLICIT: case KEYWORD_EXTERN:
case KEYWORD_FRIEND: case KEYWORD_INLINE:
case KEYWORD_MUTABLE: case KEYWORD_NAMESPACE:
case KEYWORD_NEW: case KEYWORD_OPERATOR:
case KEYWORD_OVERLOAD: case KEYWORD_PRIVATE:
case KEYWORD_PROTECTED: case KEYWORD_PUBLIC:
case KEYWORD_STATIC: case KEYWORD_TEMPLATE:
case KEYWORD_TYPEDEF: case KEYWORD_TYPENAME:
case KEYWORD_USING: case KEYWORD_VIRTUAL:
/* Never allowed within parameter declarations.
*/
restart = TRUE;
end = TRUE;
break;
default:
if (isType (token, TOKEN_NONE))
;
else if (info->isKnrParamList && info->parameterCount > 0)
++elementCount;
else
{
/* If we encounter any other identifier immediately
* following an empty parameter list, this is almost
* certainly one of those Microsoft macro "thingies"
* that the automatic source code generation sticks
* in. Terminate the current statement.
*/
restart = TRUE;
end = TRUE;
}
break;
}
}
}
}
if (! end)
{
c = skipToNonWhite ();
if (c == EOF)
end = TRUE;
}
} while (! end);
if (restart)
restartStatement (st);
else
setToken (st, TOKEN_NONE);
return (boolean) (c != EOF);
}
static void skipJavaThrows (statementInfo *const st)
{
tokenInfo *const token = activeToken (st);
int c = skipToNonWhite ();
if (isident1 (c))
{
readIdentifier (token, c);
if (token->keyword == KEYWORD_THROWS)
{
do
{
c = skipToNonWhite ();
if (isident1 (c))
{
readIdentifier (token, c);
c = skipToNonWhite ();
}
} while (c == '.' || c == ',');
}
}
cppUngetc (c);
setToken (st, TOKEN_NONE);
}
static void analyzePostParens (statementInfo *const st, parenInfo *const info)
{
const unsigned long inputLineNumber = getInputLineNumber ();
int c = skipToNonWhite ();
cppUngetc (c);
if (isOneOf (c, "{;,="))
;
else if (isLanguage (Lang_java) || isLanguage (Lang_vala))
skipJavaThrows (st);
else
{
if (! skipPostArgumentStuff (st, info))
{
verbose (
"%s: confusing argument declarations beginning at line %lu\n",
getInputFileName (), inputLineNumber);
longjmp (Exception, (int) ExceptionFormattingError);
}
}
}
static int parseParens (statementInfo *const st, parenInfo *const info)
{
tokenInfo *const token = activeToken (st);
unsigned int identifierCount = 0;
unsigned int depth = 1;
boolean firstChar = TRUE;
int nextChar = '\0';
info->parameterCount = 1;
do
{
int c = skipToNonWhite ();
switch (c)
{
case '&':
case '*':
{
/* DEBUG_PRINT("parseParens, po++\n"); */
info->isKnrParamList = FALSE;
if (identifierCount == 0)
info->isParamList = FALSE;
initToken (token);
break;
}
case ':':
{
info->isKnrParamList = FALSE;
break;
}
case '.':
{
info->isNameCandidate = FALSE;
info->isKnrParamList = FALSE;
break;
}
case ',':
{
info->isNameCandidate = FALSE;
if (info->isKnrParamList)
{
++info->parameterCount;
identifierCount = 0;
}
break;
}
case '=':
{
info->isKnrParamList = FALSE;
info->isNameCandidate = FALSE;
if (firstChar)
{
info->isParamList = FALSE;
skipMacro (st);
depth = 0;
}
break;
}
case '[':
{
info->isKnrParamList = FALSE;
skipToMatch ("[]");
break;
}
case '<':
{
info->isKnrParamList = FALSE;
skipToMatch ("<>");
break;
}
case ')':
{
if (firstChar)
info->parameterCount = 0;
--depth;
break;
}
case '(':
{
info->isKnrParamList = FALSE;
if (firstChar)
{
info->isNameCandidate = FALSE;
cppUngetc (c);
skipMacro (st);
depth = 0;
}
else if (isType (token, TOKEN_PAREN_NAME))
{
c = skipToNonWhite ();
if (c == '*') /* check for function pointer */
{
skipToMatch ("()");
c = skipToNonWhite ();
if (c == '(')
skipToMatch ("()");
}
else
{
cppUngetc (c);
cppUngetc ('(');
info->nestedArgs = TRUE;
}
}
else
++depth;
break;
}
default:
{
if (isident1 (c))
{
if (++identifierCount > 1)
info->isKnrParamList = FALSE;
readIdentifier (token, c);
if (isType (token, TOKEN_NAME) && info->isNameCandidate)
token->type = TOKEN_PAREN_NAME;
else if (isType (token, TOKEN_KEYWORD))
{
info->isKnrParamList = FALSE;
info->isNameCandidate = FALSE;
}
}
else
{
info->isParamList = FALSE;
info->isKnrParamList = FALSE;
info->isNameCandidate = FALSE;
info->invalidContents = TRUE;
}
break;
}
}
firstChar = FALSE;
} while (! info->nestedArgs && depth > 0 &&
(info->isKnrParamList || info->isNameCandidate));
if (! info->nestedArgs) while (depth > 0)
{
skipToMatch ("()");
--depth;
}
if (st->argEndPosition == 0)
{
if (useFile())
st->argEndPosition = ftell(File.fp);
else
/* FIXME File.fpBufferPosition is wrong here, this breaks function signatures and
* so Geany's calltips */
st->argEndPosition = File.fpBufferPosition;
}
if (! info->isNameCandidate)
initToken (token);
return nextChar;
}
static void initParenInfo (parenInfo *const info)
{
info->isParamList = TRUE;
info->isKnrParamList = TRUE;
info->isNameCandidate = TRUE;
info->invalidContents = FALSE;
info->nestedArgs = FALSE;
info->parameterCount = 0;
}
static void analyzeParens (statementInfo *const st)
{
tokenInfo *const prev = prevToken (st, 1);
if (! isType (prev, TOKEN_NONE)) /* in case of ignored enclosing macros */
{
tokenInfo *const token = activeToken (st);
parenInfo info;
int c;
initParenInfo (&info);
parseParens (st, &info);
c = skipToNonWhite ();
cppUngetc (c);
if (info.invalidContents)
{
reinitStatement (st, FALSE);
}
else if (info.isNameCandidate && isType (token, TOKEN_PAREN_NAME) &&
! st->gotParenName &&
(! info.isParamList || ! st->haveQualifyingName ||
c == '(' ||
(c == '=' && st->implementation != IMP_VIRTUAL) ||
(st->declaration == DECL_NONE && isOneOf (c, ",;"))))
{
token->type = TOKEN_NAME;
processName (st);
st->gotParenName = TRUE;
}
else if (! st->gotArgs && info.isParamList)
{
st->gotArgs = TRUE;
setToken (st, TOKEN_ARGS);
advanceToken (st);
analyzePostParens (st, &info);
}
else
{
setToken (st, TOKEN_NONE);
}
}
}
/*
* Token parsing functions
*/
static void addContext (statementInfo *const st, const tokenInfo* const token)
{
if (isType (token, TOKEN_NAME))
{
if (vStringLength (st->context->name) > 0)
{
if (isLanguage (Lang_c) || isLanguage (Lang_cpp))
vStringCatS (st->context->name, "::");
else if (isLanguage (Lang_java) ||
isLanguage (Lang_d) || isLanguage (Lang_ferite) ||
isLanguage (Lang_csharp) || isLanguage (Lang_vala))
vStringCatS (st->context->name, ".");
}
vStringCat (st->context->name, token->name);
st->context->type = TOKEN_NAME;
}
}
static boolean inheritingDeclaration (declType decl)
{
return (boolean) (decl == DECL_CLASS ||
decl == DECL_STRUCT ||
decl == DECL_INTERFACE);
}
static void processColon (statementInfo *const st)
{
int c = skipToNonWhite ();
const boolean doubleColon = (boolean) (c == ':');
if (doubleColon)
{
setToken (st, TOKEN_DOUBLE_COLON);
st->haveQualifyingName = FALSE;
}
else
{
cppUngetc (c);
if (((isLanguage (Lang_cpp) || isLanguage (Lang_csharp) || isLanguage (Lang_vala)) &&
inheritingDeclaration (st->declaration)) ||
isLanguage (Lang_d))
{
readParents (st, ':');
}
else if (parentDecl (st) == DECL_STRUCT)
{
c = skipToOneOf (",;");
if (c == ',')
setToken (st, TOKEN_COMMA);
else if (c == ';')
setToken (st, TOKEN_SEMICOLON);
}
else
{
const tokenInfo *const prev = prevToken (st, 1);
const tokenInfo *const prev2 = prevToken (st, 2);
if (prev->keyword == KEYWORD_DEFAULT ||
prev2->keyword == KEYWORD_CASE ||
st->parent != NULL)
{
reinitStatement (st, FALSE);
}
}
}
}
/* Skips over any initializing value which may follow an '=' character in a
* variable definition.
*/
static int skipInitializer (statementInfo *const st)
{
boolean done = FALSE;
int c;
while (! done)
{
c = skipToNonWhite ();
if (c == EOF)
longjmp (Exception, (int) ExceptionFormattingError);
else switch (c)
{
case ',':
case ';': done = TRUE; break;
case '0':
if (st->implementation == IMP_VIRTUAL)
st->implementation = IMP_PURE_VIRTUAL;
break;
case '[': skipToMatch ("[]"); break;
case '(': skipToMatch ("()"); break;
case '{': skipToMatch ("{}"); break;
case '}':
if (insideEnumBody (st))
done = TRUE;
else if (! isBraceFormat ())
{
verbose ("%s: unexpected closing brace at line %lu\n",
getInputFileName (), getInputLineNumber ());
longjmp (Exception, (int) ExceptionBraceFormattingError);
}
break;
default: break;
}
}
return c;
}
static void processInitializer (statementInfo *const st)
{
const boolean inEnumBody = insideEnumBody (st);
const int c = skipInitializer (st);
if (c == ';')
setToken (st, TOKEN_SEMICOLON);
else if (c == ',')
setToken (st, TOKEN_COMMA);
else if (c == '}' && inEnumBody)
{
cppUngetc (c);
setToken (st, TOKEN_COMMA);
}
if (st->scope == SCOPE_EXTERN)
st->scope = SCOPE_GLOBAL;
}
static void parseIdentifier (statementInfo *const st, const int c)
{
tokenInfo *const token = activeToken (st);
readIdentifier (token, c);
if (! isType (token, TOKEN_NONE))
processToken (token, st);
}
static void parseGeneralToken (statementInfo *const st, const int c)
{
const tokenInfo *const prev = prevToken (st, 1);
if (isident1(c))
{
parseIdentifier (st, c);
if (isType (st->context, TOKEN_NAME) &&
isType (activeToken (st), TOKEN_NAME) && isType (prev, TOKEN_NAME))
{
initToken (st->context);
}
}
else if (isExternCDecl (st, c))
{
st->declaration = DECL_NOMANGLE;
st->scope = SCOPE_GLOBAL;
}
}
/* Reads characters from the pre-processor and assembles tokens, setting
* the current statement state.
*/
static void nextToken (statementInfo *const st)
{
int c;
tokenInfo *token = activeToken (st);
do
{
c = skipToNonWhite();
switch (c)
{
case EOF: longjmp (Exception, (int) ExceptionEOF); break;
case '(': analyzeParens (st); token = activeToken (st); break;
case '*': setToken (st, TOKEN_STAR); break;
case ',': setToken (st, TOKEN_COMMA); break;
case ':': processColon (st); break;
case ';': setToken (st, TOKEN_SEMICOLON); break;
case '<': skipToMatch ("<>"); break;
case '=': processInitializer (st); break;
case '[':
/* Hack for Vala: [..] can be a function attribute.
* Seems not to have bad side effects, but have to test it more. */
if (!isLanguage (Lang_vala))
setToken (st, TOKEN_ARRAY);
skipToMatch ("[]");
break;
case '{': setToken (st, TOKEN_BRACE_OPEN); break;
case '}': setToken (st, TOKEN_BRACE_CLOSE); break;
default: parseGeneralToken (st, c); break;
}
} while (isType (token, TOKEN_NONE));
/* We want to know about non-keyword variable types */
if (TOKEN_NONE == st->firstToken->type)
{
if ((TOKEN_NAME == token->type) || isDataTypeKeyword(token))
copyToken(st->firstToken, token);
}
}
/*
* Scanning support functions
*/
static unsigned int contextual_fake_count = 0;
static statementInfo *CurrentStatement = NULL;
static statementInfo *newStatement (statementInfo *const parent)
{
statementInfo *const st = xMalloc (1, statementInfo);
unsigned int i;
for (i = 0 ; i < (unsigned int) NumTokens ; ++i)
st->token [i] = newToken ();
st->context = newToken ();
st->blockName = newToken ();
st->parentClasses = vStringNew ();
st->firstToken = newToken();
initStatement (st, parent);
CurrentStatement = st;
return st;
}
static void deleteStatement (void)
{
statementInfo *const st = CurrentStatement;
statementInfo *const parent = st->parent;
unsigned int i;
for (i = 0 ; i < (unsigned int) NumTokens ; ++i)
{
deleteToken(st->token[i]); st->token[i] = NULL;
}
deleteToken(st->blockName); st->blockName = NULL;
deleteToken(st->context); st->context = NULL;
vStringDelete(st->parentClasses); st->parentClasses = NULL;
deleteToken(st->firstToken);
eFree (st);
CurrentStatement = parent;
}
static void deleteAllStatements (void)
{
while (CurrentStatement != NULL)
deleteStatement ();
}
static boolean isStatementEnd (const statementInfo *const st)
{
const tokenInfo *const token = activeToken (st);
boolean isEnd;
if (isType (token, TOKEN_SEMICOLON))
isEnd = TRUE;
else if (isType (token, TOKEN_BRACE_CLOSE))
/* Java, D, C#, Vala do not require semicolons to end a block. Neither do
* C++ namespaces. All other blocks require a semicolon to terminate them.
*/
isEnd = (boolean) (isLanguage (Lang_java) || isLanguage (Lang_d) ||
isLanguage (Lang_csharp) || isLanguage (Lang_vala) ||
! isContextualStatement (st));
else
isEnd = FALSE;
return isEnd;
}
static void checkStatementEnd (statementInfo *const st)
{
const tokenInfo *const token = activeToken (st);
boolean comma = isType (token, TOKEN_COMMA);
if (comma || isStatementEnd (st))
{
reinitStatementWithToken (st, activeToken (st), comma);
DebugStatement ( if (debug (DEBUG_PARSE)) printf ("<ES>"); )
cppEndStatement ();
}
else
{
cppBeginStatement ();
advanceToken (st);
}
}
static void nest (statementInfo *const st, const unsigned int nestLevel)
{
switch (st->declaration)
{
case DECL_CLASS:
case DECL_ENUM:
case DECL_INTERFACE:
case DECL_NAMESPACE:
case DECL_NOMANGLE:
case DECL_STRUCT:
case DECL_UNION:
createTags (nestLevel, st);
break;
default:
skipToMatch ("{}");
break;
}
advanceToken (st);
setToken (st, TOKEN_BRACE_CLOSE);
}
static void tagCheck (statementInfo *const st)
{
const tokenInfo *const token = activeToken (st);
const tokenInfo *const prev = prevToken (st, 1);
const tokenInfo *const prev2 = prevToken (st, 2);
switch (token->type)
{
case TOKEN_NAME:
{
if (insideEnumBody (st))
qualifyEnumeratorTag (st, token);
break;
}
#if 0
case TOKEN_PACKAGE:
{
if (st->haveQualifyingName)
makeTag (token, st, FALSE, TAG_PACKAGE);
break;
}
#endif
case TOKEN_BRACE_OPEN:
{
if (isType (prev, TOKEN_ARGS))
{
if (st->haveQualifyingName)
{
st->declaration = DECL_FUNCTION;
if (isType (prev2, TOKEN_NAME))
copyToken (st->blockName, prev2);
qualifyFunctionTag (st, prev2);
}
}
else if (isContextualStatement (st))
{
tokenInfo *name_token = (tokenInfo *)prev;
if (isType (name_token, TOKEN_NAME))
{
if (!isLanguage (Lang_vala))
copyToken (st->blockName, name_token);
else
{
switch (st->declaration)
{
case DECL_CLASS:
case DECL_ENUM:
case DECL_INTERFACE:
case DECL_NAMESPACE:
case DECL_STRUCT:
copyToken (st->blockName, name_token);
break;
/* anything else can be a property */
default:
/* makeTag (prev, st, FALSE, TAG_PROPERTY); */
/* FIXME: temporary hack to get properties shown */
makeTag (prev, st, FALSE, TAG_FIELD);
break;
}
}
}
else if (isLanguage (Lang_csharp))
makeTag (prev, st, FALSE, TAG_PROPERTY);
else
{
tokenInfo *contextual_token = (tokenInfo *)prev;
if(isContextualKeyword (contextual_token))
{
char buffer[64];
name_token = newToken ();
copyToken (name_token, contextual_token);
sprintf(buffer, "anon_%s_%d", name_token->name->buffer, contextual_fake_count++);
vStringClear(name_token->name);
vStringCatS(name_token->name, buffer);
name_token->type = TOKEN_NAME;
name_token->keyword = KEYWORD_NONE;
advanceToken (st);
contextual_token = activeToken (st);
copyToken (contextual_token, token);
copyToken ((tokenInfo *const)token, name_token);
copyToken (st->blockName, name_token);
copyToken (st->firstToken, name_token);
}
}
qualifyBlockTag (st, name_token);
}
break;
}
case TOKEN_ARRAY:
case TOKEN_SEMICOLON:
case TOKEN_COMMA:
{
if (insideEnumBody (st))
;
else if (isType (prev, TOKEN_NAME))
{
if (isContextualKeyword (prev2))
makeTag (prev, st, TRUE, TAG_EXTERN_VAR);
else
qualifyVariableTag (st, prev);
}
else if (isType (prev, TOKEN_ARGS) && isType (prev2, TOKEN_NAME))
{
qualifyFunctionDeclTag (st, prev2);
}
break;
}
default:
break;
}
}
/* Parses the current file and decides whether to write out and tags that
* are discovered.
*/
static void createTags (const unsigned int nestLevel,
statementInfo *const parent)
{
statementInfo *const st = newStatement (parent);
DebugStatement ( if (nestLevel > 0) debugParseNest (TRUE, nestLevel); )
while (TRUE)
{
tokenInfo *token;
nextToken (st);
token = activeToken (st);
if (isType (token, TOKEN_BRACE_CLOSE))
{
if (nestLevel > 0)
break;
else
{
verbose ("%s: unexpected closing brace at line %lu\n",
getInputFileName (), getInputLineNumber ());
longjmp (Exception, (int) ExceptionBraceFormattingError);
}
}
else if (isType (token, TOKEN_DOUBLE_COLON))
{
addContext (st, prevToken (st, 1));
advanceToken (st);
}
else
{
tagCheck (st);/* this can add new token */
if (isType (activeToken (st), TOKEN_BRACE_OPEN))
nest (st, nestLevel + 1);
checkStatementEnd (st);
}
}
deleteStatement ();
DebugStatement ( if (nestLevel > 0) debugParseNest (FALSE, nestLevel - 1); )
}
static boolean findCTags (const unsigned int passCount)
{
exception_t exception;
boolean retry;
Assert (passCount < 3);
cppInit ((boolean) (passCount > 1), isLanguage (Lang_csharp));
exception = (exception_t) setjmp (Exception);
retry = FALSE;
if (exception == ExceptionNone)
{
createTags (0, NULL);
}
else
{
deleteAllStatements ();
if (exception == ExceptionBraceFormattingError && passCount == 1)
{
retry = TRUE;
verbose ("%s: retrying file with fallback brace matching algorithm\n",
getInputFileName ());
}
}
cppTerminate ();
return retry;
}
static void buildKeywordHash (const langType language, unsigned int idx)
{
const size_t count = sizeof (KeywordTable) / sizeof (KeywordTable [0]);
size_t i;
for (i = 0 ; i < count ; ++i)
{
const keywordDesc* const p = &KeywordTable [i];
if (p->isValid [idx])
addKeyword (p->name, language, (int) p->id);
}
}
static void initializeCParser (const langType language)
{
contextual_fake_count = 0;
Lang_c = language;
buildKeywordHash (language, 0);
}
static void initializeCppParser (const langType language)
{
contextual_fake_count = 0;
Lang_cpp = language;
buildKeywordHash (language, 1);
}
static void initializeJavaParser (const langType language)
{
contextual_fake_count = 0;
Lang_java = language;
buildKeywordHash (language, 3);
}
static void initializeDParser (const langType language)
{
contextual_fake_count = 0;
Lang_d = language;
buildKeywordHash (language, 6);
}
static void initializeGLSLParser (const langType language)
{
contextual_fake_count = 0;
Lang_glsl = language;
buildKeywordHash (language, 0); /* C keywords */
}
static void initializeFeriteParser (const langType language)
{
contextual_fake_count = 0;
Lang_ferite = language;
buildKeywordHash (language, 1); /* C++ keywords */
}
static void initializeCsharpParser (const langType language)
{
contextual_fake_count = 0;
Lang_csharp = language;
buildKeywordHash (language, 2);
}
static void initializeValaParser (const langType language)
{
contextual_fake_count = 0;
Lang_vala = language;
buildKeywordHash (language, 5);
}
extern parserDefinition* CParser (void)
{
static const char *const extensions [] = { "c", "pc", "sc", NULL };
parserDefinition* def = parserNew ("C");
def->kinds = CKinds;
def->kindCount = KIND_COUNT (CKinds);
def->extensions = extensions;
def->parser2 = findCTags;
def->initialize = initializeCParser;
return def;
}
extern parserDefinition* CppParser (void)
{
static const char *const extensions [] = {
"c++", "cc", "cp", "cpp", "cxx", "h", "h++", "hh", "hp", "hpp", "hxx",
"i",
#ifndef CASE_INSENSITIVE_FILENAMES
"C", "H",
#endif
NULL
};
parserDefinition* def = parserNew ("C++");
def->kinds = CKinds;
def->kindCount = KIND_COUNT (CKinds);
def->extensions = extensions;
def->parser2 = findCTags;
def->initialize = initializeCppParser;
return def;
}
extern parserDefinition* JavaParser (void)
{
static const char *const extensions [] = { "java", NULL };
parserDefinition* def = parserNew ("Java");
def->kinds = JavaKinds;
def->kindCount = KIND_COUNT (JavaKinds);
def->extensions = extensions;
def->parser2 = findCTags;
def->initialize = initializeJavaParser;
return def;
}
extern parserDefinition* DParser (void)
{
static const char *const extensions [] = { "d", "di", NULL };
parserDefinition* def = parserNew ("D");
def->kinds = CKinds;
def->kindCount = KIND_COUNT (CKinds);
def->extensions = extensions;
def->parser2 = findCTags;
def->initialize = initializeDParser;
return def;
}
extern parserDefinition* GLSLParser (void)
{
static const char *const extensions [] = { "glsl", "frag", "vert", NULL };
parserDefinition* def = parserNew ("GLSL");
def->kinds = CKinds;
def->kindCount = KIND_COUNT (CKinds);
def->extensions = extensions;
def->parser2 = findCTags;
def->initialize = initializeGLSLParser;
return def;
}
extern parserDefinition* FeriteParser (void)
{
static const char *const extensions [] = { "fe", NULL };
parserDefinition* def = parserNew ("Ferite");
def->kinds = CKinds;
def->kindCount = KIND_COUNT (CKinds);
def->extensions = extensions;
def->parser2 = findCTags;
def->initialize = initializeFeriteParser;
return def;
}
extern parserDefinition* CsharpParser (void)
{
static const char *const extensions [] = { "cs", NULL };
parserDefinition* def = parserNew ("C#");
def->kinds = CsharpKinds;
def->kindCount = KIND_COUNT (CsharpKinds);
def->extensions = extensions;
def->parser2 = findCTags;
def->initialize = initializeCsharpParser;
return def;
}
extern parserDefinition* ValaParser (void)
{
static const char *const extensions [] = { "vala", NULL };
parserDefinition* def = parserNew ("Vala");
def->kinds = ValaKinds;
def->kindCount = KIND_COUNT (ValaKinds);
def->extensions = extensions;
def->parser2 = findCTags;
def->initialize = initializeValaParser;
return def;
}
/* vi:set tabstop=8 shiftwidth=4: */
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