/*------------------------------------------------------------------------- SDCCsymt.h - Header file for Symbols table related structures and MACRO's. Written By - Sandeep Dutta . sandeep.dutta@usa.net (1998) This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. In other words, you are welcome to use, share and improve this program. You are forbidden to forbid anyone else to use, share and improve what you give them. Help stamp out software-hoarding! -------------------------------------------------------------------------*/ #ifndef SDCCSYMT_H #define SDCCSYMT_H #define MAX_NEST_LEVEL 256 #define SDCC_SYMNAME_MAX 64 #define SDCC_NAME_MAX 3*SDCC_SYMNAME_MAX // big enough for ___etc #include "SDCChasht.h" #include "SDCCglobl.h" #include "dbuf.h" #define INTNO_MAX 255 /* maximum allowed interrupt number */ #define INTNO_UNSPEC (INTNO_MAX+1) /* interrupt number unspecified */ #define BITVAR_PAD -1 enum { TYPEOF_INT=1, TYPEOF_SHORT, TYPEOF_CHAR, TYPEOF_LONG, TYPEOF_FLOAT, TYPEOF_FIXED16X16, TYPEOF_BIT, TYPEOF_BITFIELD, TYPEOF_SBIT, TYPEOF_SFR, TYPEOF_VOID, TYPEOF_STRUCT, TYPEOF_ARRAY, TYPEOF_FUNCTION, TYPEOF_POINTER, TYPEOF_FPOINTER, TYPEOF_CPOINTER, TYPEOF_GPOINTER, TYPEOF_PPOINTER, TYPEOF_IPOINTER, TYPEOF_EEPPOINTER }; // values for first byte (or 3 most significant bits) of generic pointer. #if 0 #define GPTYPE_FAR 0x00 #define GPTYPE_NEAR 0x40 #define GPTYPE_XSTACK 0x60 #define GPTYPE_CODE 0x80 #else #define GPTYPE_FAR (port->gp_tags.tag_far) #define GPTYPE_NEAR (port->gp_tags.tag_near) #define GPTYPE_XSTACK (port->gp_tags.tag_xstack) #define GPTYPE_CODE (port->gp_tags.tag_code) #endif #define HASHTAB_SIZE 256 /* hash table bucket */ typedef struct bucket { void *sym; /* pointer to the object */ char name[SDCC_NAME_MAX + 1]; /* name of this symbol */ int level; /* nest level for this symbol */ int block; /* belongs to which block */ struct bucket *prev; /* ptr 2 previous bucket */ struct bucket *next; /* ptr 2 next bucket */ } bucket; typedef struct structdef { char tag[SDCC_NAME_MAX + 1]; /* tag part of structure */ unsigned char level; /* Nesting level */ struct symbol *fields; /* pointer to fields */ unsigned size; /* sizeof the table in bytes */ int type; /* STRUCT or UNION */ bool b_flexArrayMember; /* has got an flexible array member, only needed for syntax checks */ } structdef; /* noun definitions */ typedef enum { V_INT = 1, V_FLOAT, V_FIXED16X16, V_CHAR, V_VOID, V_STRUCT, V_LABEL, V_BIT, V_BITFIELD, V_SBIT, V_DOUBLE } NOUN; /* storage class */ typedef enum { S_FIXED = 0, S_AUTO, S_REGISTER, S_SFR, S_SBIT, S_CODE, S_XDATA, S_DATA, S_IDATA, S_PDATA, S_LITERAL, S_STACK, S_XSTACK, S_BIT, S_EEPROM } STORAGE_CLASS; #define TYPE_TARGET_CHAR TYPE_BYTE #define TYPE_TARGET_INT TYPE_WORD #define TYPE_TARGET_LONG TYPE_DWORD #define TYPE_TARGET_UCHAR TYPE_UBYTE #define TYPE_TARGET_UINT TYPE_UWORD #define TYPE_TARGET_ULONG TYPE_UDWORD /* specifier is the last in the type-chain */ typedef struct specifier { NOUN noun; /* CHAR INT STRUCTURE LABEL */ STORAGE_CLASS sclass; /* REGISTER,AUTO,FIX,CONSTANT */ struct memmap *oclass; /* output storage class */ unsigned b_long:1; /* 1=long */ unsigned b_short:1; /* 1=short int */ unsigned b_unsigned:1; /* 1=unsigned, 0=signed */ unsigned b_signed:1; /* just for sanity checks only*/ unsigned b_static:1; /* 1=static keyword found */ unsigned b_extern:1; /* 1=extern found */ unsigned b_inline:1; /* inline function requested */ unsigned b_absadr:1; /* absolute address specfied */ unsigned b_volatile:1; /* is marked as volatile */ unsigned b_const:1; /* is a constant */ unsigned b_restrict:1; /* is restricted */ unsigned b_typedef:1; /* is typedefed */ unsigned b_isregparm:1; /* is the first parameter */ unsigned b_isenum:1; /* is an enumerated type */ unsigned _addr; /* address of symbol */ unsigned _stack; /* stack offset for stacked v */ unsigned _bitStart; /* bit start position */ int _bitLength; /* bit length */ int argreg; /* reg no for regparm */ union { /* Values if constant or enum */ TYPE_TARGET_INT v_int; /* 2 bytes: int and char values */ char *v_char; /* character string */ TYPE_TARGET_UINT v_uint; /* 2 bytes: unsigned int const value */ TYPE_TARGET_LONG v_long; /* 4 bytes: long constant value */ TYPE_TARGET_ULONG v_ulong; /* 4 bytes: unsigned long constant value */ double v_float; /* floating point constant value */ TYPE_TARGET_ULONG v_fixed16x16; /* 4 bytes: fixed floating point constant value */ struct symbol *v_enum; /* ptr to enum_list if enum==1 */ } const_val; struct structdef *v_struct; /* structure pointer */ } specifier; /* types of declarators */ typedef enum { POINTER = 0, /* pointer to near data */ FPOINTER, /* pointer to far data */ CPOINTER, /* pointer to code space */ GPOINTER, /* _generic pointer */ PPOINTER, /* paged area pointer */ IPOINTER, /* pointer to upper 128 bytes */ UPOINTER, /* unknown pointer used only when parsing */ EEPPOINTER, /* pointer to eeprom */ ARRAY, FUNCTION } DECLARATOR_TYPE; typedef struct declarator { DECLARATOR_TYPE dcl_type; /* POINTER,ARRAY or FUNCTION */ unsigned int num_elem; /* # of elems if type==array, */ /* always 0 for flexible arrays */ unsigned ptr_const:1; /* pointer is constant */ unsigned ptr_volatile:1; /* pointer is volatile */ unsigned ptr_restrict:1; /* pointer is resticted */ struct sym_link *tspec; /* pointer type specifier */ } declarator; typedef enum { DECLARATOR=1, SPECIFIER } SYM_LINK_CLASS; #define DECLSPEC2TXT(select) (select==DECLARATOR?"DECLARATOR":select==SPECIFIER?"SPECIFIER":"UNKNOWN") typedef struct sym_link { SYM_LINK_CLASS class; /* DECLARATOR or SPECIFIER */ unsigned tdef:1; /* current link created by */ /* typedef if this flag is set */ union { specifier s; /* if CLASS == SPECIFIER */ declarator d; /* if CLASS == DECLARATOR */ } select; /* function attributes */ struct { struct value *args; /* the defined arguments */ unsigned hasVargs:1; /* functions has varargs */ unsigned calleeSaves:1; /* functions uses callee save */ unsigned hasbody:1; /* function body defined */ unsigned hasFcall:1; /* does it call other functions */ unsigned reent:1; /* function is reentrant */ unsigned naked:1; /* naked function */ unsigned shadowregs:1; /* function uses shadow registers (pic16 port) */ unsigned wparam:1; /* first byte of arguments is passed via WREG (pic16 port) */ unsigned nonbanked:1; /* function has the nonbanked attribute */ unsigned banked:1; /* function has the banked attribute */ unsigned critical:1; /* critical function */ unsigned intrtn:1; /* this is an interrupt routine */ unsigned rbank:1; /* seperate register bank */ unsigned inlinereq:1; /* inlining requested */ unsigned intno; /* 1=Interrupt svc routine */ short regbank; /* register bank 2b used */ unsigned builtin; /* is a builtin function */ unsigned javaNative; /* is a JavaNative Function (TININative ONLY) */ unsigned overlay; /* force parameters & locals into overlay segment */ unsigned hasStackParms; /* function has parameters on stack */ } funcAttrs; struct sym_link *next; /* next element on the chain */ } sym_link; typedef struct symbol { char name[SDCC_SYMNAME_MAX + 1]; /* Input Variable Name */ char rname[SDCC_NAME_MAX + 1]; /* internal name */ short level; /* declaration lev,fld offset */ short block; /* sequential block # of definition */ int key; unsigned flexArrayLength; /* if the symbol specifies a struct with a "flexible array member", then the additional length in bytes for the "fam" is stored here. Because the length can be different from symbol to symbol AND v_struct isn't copied in copyLinkChain(), it's located here in the symbol and not in v_struct or the declarator */ unsigned implicit:1; /* implicit flag */ unsigned undefined:1; /* undefined variable */ unsigned infertype:1; /* type should be inferred from first assign */ unsigned _isparm:1; /* is a parameter */ unsigned ismyparm:1; /* is parameter of the function being generated */ unsigned isitmp:1; /* is an intermediate temp */ unsigned islbl:1; /* is a temporary label */ unsigned isref:1; /* has been referenced */ unsigned isind:1; /* is a induction variable */ unsigned isinvariant:1; /* is a loop invariant */ unsigned cdef:1; /* compiler defined symbol */ unsigned addrtaken:1; /* address of the symbol was taken */ unsigned isreqv:1; /* is the register equivalent of a symbol */ unsigned udChked:1; /* use def checking has been already done */ unsigned generated:1; /* code generated (function symbols only) */ /* following flags are used by the backend for code generation and can be changed if a better scheme for backend is thought of */ unsigned isLiveFcall:1; /* is live at or across a function call */ unsigned isspilt:1; /* has to be spilt */ unsigned spillA:1; /* spilt be register allocator */ unsigned remat:1; /* can be remateriazed */ unsigned isptr:1; /* is a pointer */ unsigned uptr:1; /* used as a pointer */ unsigned isFree:1; /* used by register allocator */ unsigned islocal:1; /* is a local variable */ unsigned blockSpil:1; /* spilt at block level */ unsigned remainSpil:1; /* spilt because not used in remainder */ unsigned stackSpil:1; /* has been spilt on temp stack location */ unsigned onStack:1; /* this symbol allocated on the stack */ unsigned iaccess:1; /* indirect access */ unsigned ruonly:1; /* used in return statement only */ unsigned spildir:1; /* spilt in direct space */ unsigned ptrreg:1; /* this symbol assigned to a ptr reg */ unsigned noSpilLoc:1; /* cannot be assigned a spil location */ unsigned isstrlit; /* is a string literal and it's usage count */ unsigned accuse; /* can be left in the accumulator On the Z80 accuse is divided into ACCUSE_A and ACCUSE_HL as the idea is quite similar. */ unsigned dptr; /* 8051 variants with multiple DPTRS currently implemented in DS390 only */ int allocreq ; /* allocation is required for this variable */ int stack; /* offset on stack */ int xstack; /* offset on xternal stack */ short nRegs; /* number of registers required */ short regType; /* type of register required */ struct regs *regs[4]; /* can have at the most 4 registers */ struct asmop *aop; /* asmoperand for this symbol */ struct iCode *fuse; /* furthest use */ struct iCode *rematiCode; /* rematerialise with which instruction */ struct operand *reqv; /* register equivalent of a local variable */ struct symbol *prereqv; /* symbol before register equiv. substitution */ struct symbol *psbase; /* if pseudo symbol, the symbol it is based on */ union { struct symbol *spillLoc; /* register spil location */ struct set *itmpStack; /* symbols spilt @ this stack location */ } usl; short bitVar; /* this is a bit variable */ unsigned offset; /* offset from top if struct */ int lineDef; /* defined line number */ char *fileDef; /* defined filename */ int lastLine; /* for functions the last line */ struct sym_link *type; /* 1st link to declarator chain */ struct sym_link *etype; /* last link to declarator chain */ struct symbol *next; /* crosslink to next symbol */ struct symbol *localof; /* local variable of which function */ struct initList *ival; /* ptr to initializer if any */ struct bitVect *defs; /* bit vector for definitions */ struct bitVect *uses; /* bit vector for uses */ struct bitVect *regsUsed; /* for functions registers used */ int liveFrom; /* live from iCode sequence number */ int liveTo; /* live to sequence number */ int used; /* no. of times this was used */ int recvSize; /* size of first argument */ struct bitVect *clashes; /* overlaps with what other symbols */ struct ast * funcTree; /* function body ast if inlined */ } symbol; extern sym_link *validateLink(sym_link *l, const char *macro, const char *args, const char select, const char *file, unsigned line); /* Easy Access Macros */ #define IS_OP_RUONLY(x) (x && IS_SYMOP(x) && OP_SYMBOL(x)->ruonly) #define IS_OP_ACCUSE(x) (x && IS_SYMOP(x) && OP_SYMBOL(x)->accuse) #define DCL_TYPE(l) validateLink(l, "DCL_TYPE", #l, DECLARATOR, __FILE__, __LINE__)->select.d.dcl_type #define DCL_ELEM(l) validateLink(l, "DCL_ELEM", #l, DECLARATOR, __FILE__, __LINE__)->select.d.num_elem #define DCL_PTR_CONST(l) validateLink(l, "DCL_PTR_CONST", #l, DECLARATOR, __FILE__, __LINE__)->select.d.ptr_const #define DCL_PTR_VOLATILE(l) validateLink(l, "DCL_PTR_VOLATILE", #l, DECLARATOR, __FILE__, __LINE__)->select.d.ptr_volatile #define DCL_PTR_RESTRICT(l) validateLink(l, "DCL_PTR_RESTRICT", #l, DECLARATOR, __FILE__, __LINE__)->select.d.ptr_restrict #define DCL_TSPEC(l) validateLink(l, "DCL_TSPEC", #l, DECLARATOR, __FILE__, __LINE__)->select.d.tspec #define FUNC_DEBUG //assert(IS_FUNC(x)); #define FUNC_HASVARARGS(x) (x->funcAttrs.hasVargs) #define IFFUNC_HASVARARGS(x) (IS_FUNC(x) && FUNC_HASVARARGS(x)) #define FUNC_ARGS(x) (x->funcAttrs.args) #define IFFUNC_ARGS(x) (IS_FUNC(x) && FUNC_ARGS(x)) #define FUNC_HASFCALL(x) (x->funcAttrs.hasFcall) #define IFFUNC_HASFCALL(x) (IS_FUNC(x) && FUNC_HASFCALL(x)) #define FUNC_HASBODY(x) (x->funcAttrs.hasbody) #define IFFUNC_HASBODY(x) (IS_FUNC(x) && FUNC_HASBODY(x)) #define FUNC_CALLEESAVES(x) (x->funcAttrs.calleeSaves) #define IFFUNC_CALLEESAVES(x) (IS_FUNC(x) && FUNC_CALLEESAVES(x)) #define FUNC_ISISR(x) (x->funcAttrs.intrtn) #define IFFUNC_ISISR(x) (IS_FUNC(x) && FUNC_ISISR(x)) #define IFFUNC_RBANK(x) (IS_FUNC(x) && FUNC_RBANK(x)) #define FUNC_INTNO(x) (x->funcAttrs.intno) #define FUNC_REGBANK(x) (x->funcAttrs.regbank) #define FUNC_HASSTACKPARM(x) (x->funcAttrs.hasStackParms) #define FUNC_ISINLINE(x) (x->funcAttrs.inlinereq) #define IFFUNC_ISINLINE(x) (IS_FUNC(x) && FUNC_ISINLINE(x)) #define FUNC_ISREENT(x) (x->funcAttrs.reent) #define IFFUNC_ISREENT(x) (IS_FUNC(x) && FUNC_ISREENT(x)) #define FUNC_ISSHADOWREGS(x) (x->funcAttrs.shadowregs) #define IFFUNC_ISSHADOWREGS(x) (IS_FUNC(x) && FUNC_ISSHADOWREGS(x)) #define FUNC_ISWPARAM(x) (x->funcAttrs.wparam) #define IFFUNC_ISWPARAM(x) (IS_FUNC(x) && FUNC_ISWPARAM(x)) #define FUNC_ISNAKED(x) (x->funcAttrs.naked) #define IFFUNC_ISNAKED(x) (IS_FUNC(x) && FUNC_ISNAKED(x)) #define FUNC_NONBANKED(x) (x->funcAttrs.nonbanked) #define IFFUNC_NONBANKED(x) (IS_FUNC(x) && FUNC_NONBANKED(x)) #define FUNC_BANKED(x) (x->funcAttrs.banked) #define IFFUNC_BANKED(x) (IS_FUNC(x) && FUNC_BANKED(x)) #define FUNC_ISCRITICAL(x) (x->funcAttrs.critical) #define IFFUNC_ISCRITICAL(x) (IS_FUNC(x) && FUNC_ISCRITICAL(x)) #define FUNC_ISBUILTIN(x) (x->funcAttrs.builtin) #define IFFUNC_ISBUILTIN(x) (IS_FUNC(x) && FUNC_ISBUILTIN(x)) #define FUNC_ISJAVANATIVE(x) (x->funcAttrs.javaNative) #define IFFUNC_ISJAVANATIVE(x) (IS_FUNC(x) && FUNC_ISJAVANATIVE(x)) #define FUNC_ISOVERLAY(x) (x->funcAttrs.overlay) #define IFFUNC_ISOVERLAY(x) (IS_FUNC(x) && FUNC_ISOVERLAY(x)) #define IFFUNC_ISBANKEDCALL(x) (!IFFUNC_NONBANKED(x) && \ (options.model == MODEL_HUGE || \ ((options.model == MODEL_LARGE || options.model == MODEL_MEDIUM) && \ (TARGET_IS_Z80 || TARGET_IS_GBZ80)) || \ IFFUNC_BANKED(x))) #define SPEC_NOUN(x) validateLink(x, "SPEC_NOUN", #x, SPECIFIER, __FILE__, __LINE__)->select.s.noun #define SPEC_LONG(x) validateLink(x, "SPEC_LONG", #x, SPECIFIER, __FILE__, __LINE__)->select.s.b_long #define SPEC_SHORT(x) validateLink(x, "SPEC_LONG", #x, SPECIFIER, __FILE__, __LINE__)->select.s.b_short #define SPEC_USIGN(x) validateLink(x, "SPEC_USIGN", #x, SPECIFIER, __FILE__, __LINE__)->select.s.b_unsigned #define SPEC_SCLS(x) validateLink(x, "SPEC_SCLS", #x, SPECIFIER, __FILE__, __LINE__)->select.s.sclass #define SPEC_ENUM(x) validateLink(x, "SPEC_ENUM", #x, SPECIFIER, __FILE__, __LINE__)->select.s.b_isenum #define SPEC_OCLS(x) validateLink(x, "SPEC_OCLS", #x, SPECIFIER, __FILE__, __LINE__)->select.s.oclass #define SPEC_STAT(x) validateLink(x, "SPEC_STAT", #x, SPECIFIER, __FILE__, __LINE__)->select.s.b_static #define SPEC_EXTR(x) validateLink(x, "SPEC_EXTR", #x, SPECIFIER, __FILE__, __LINE__)->select.s.b_extern #define SPEC_CODE(x) validateLink(x, "SPEC_CODE", #x, SPECIFIER, __FILE__, __LINE__)->select.s._codesg #define SPEC_ABSA(x) validateLink(x, "SPEC_ABSA", #x, SPECIFIER, __FILE__, __LINE__)->select.s.b_absadr #define SPEC_BANK(x) validateLink(x, "SPEC_BANK", #x, SPECIFIER, __FILE__, __LINE__)->select.s._regbank #define SPEC_ADDR(x) validateLink(x, "SPEC_ADDR", #x, SPECIFIER, __FILE__, __LINE__)->select.s._addr #define SPEC_STAK(x) validateLink(x, "SPEC_STAK", #x, SPECIFIER, __FILE__, __LINE__)->select.s._stack #define SPEC_CVAL(x) validateLink(x, "SPEC_CVAL", #x, SPECIFIER, __FILE__, __LINE__)->select.s.const_val #define SPEC_BSTR(x) validateLink(x, "SPEC_BSTR", #x, SPECIFIER, __FILE__, __LINE__)->select.s._bitStart #define SPEC_BLEN(x) validateLink(x, "SPEC_BLEN", #x, SPECIFIER, __FILE__, __LINE__)->select.s._bitLength /* Sleaze: SPEC_ISR_SAVED_BANKS is only used on * function type symbols, which obviously cannot * be of BIT type. Therefore, we recycle the * _bitStart field instead of defining a new field. */ #define SPEC_ISR_SAVED_BANKS(x) validateLink(x, "SPEC_NOUN", #x, SPECIFIER, __FILE__, __LINE__)->select.s._bitStart #define SPEC_VOLATILE(x) validateLink(x, "SPEC_NOUN", #x, SPECIFIER, __FILE__, __LINE__)->select.s.b_volatile #define SPEC_CONST(x) validateLink(x, "SPEC_NOUN", #x, SPECIFIER, __FILE__, __LINE__)->select.s.b_const #define SPEC_RESTRICT(x) validateLink(x, "SPEC_NOUN", #x, SPECIFIER, __FILE__, __LINE__)->select.s.b_restrict #define SPEC_STRUCT(x) validateLink(x, "SPEC_NOUN", #x, SPECIFIER, __FILE__, __LINE__)->select.s.v_struct #define SPEC_TYPEDEF(x) validateLink(x, "SPEC_NOUN", #x, SPECIFIER, __FILE__, __LINE__)->select.s.b_typedef #define SPEC_REGPARM(x) validateLink(x, "SPEC_NOUN", #x, SPECIFIER, __FILE__, __LINE__)->select.s.b_isregparm #define SPEC_ARGREG(x) validateLink(x, "SPEC_NOUN", #x, SPECIFIER, __FILE__, __LINE__)->select.s.argreg #define SPEC_INLINE(x) validateLink(x, "SPEC_INLINE", #x, SPECIFIER, __FILE__, __LINE__)->select.s.b_inline /* type check macros */ #define IS_DECL(x) ( x && x->class == DECLARATOR ) #define IS_SPEC(x) ( x && x->class == SPECIFIER ) #define IS_ARRAY(x) (IS_DECL(x) && DCL_TYPE(x) == ARRAY) #define IS_DATA_PTR(x) (IS_DECL(x) && DCL_TYPE(x) == POINTER) #define IS_PTR(x) (IS_DECL(x) && (DCL_TYPE(x) == POINTER || \ DCL_TYPE(x) == FPOINTER || \ DCL_TYPE(x) == GPOINTER || \ DCL_TYPE(x) == IPOINTER || \ DCL_TYPE(x) == PPOINTER || \ DCL_TYPE(x) == EEPPOINTER || \ DCL_TYPE(x) == CPOINTER || \ DCL_TYPE(x) == UPOINTER )) #define IS_PTR_CONST(x) (IS_PTR(x) && DCL_PTR_CONST(x)) #define IS_PTR_RESTRICT(x) (IS_PTR(x) && DCL_PTR_RESTRICT(x)) #define IS_FARPTR(x) (IS_DECL(x) && DCL_TYPE(x) == FPOINTER) #define IS_CODEPTR(x) (IS_DECL(x) && DCL_TYPE(x) == CPOINTER) #define IS_GENPTR(x) (IS_DECL(x) && DCL_TYPE(x) == GPOINTER) #define IS_FUNCPTR(x) (IS_DECL(x) && (DCL_TYPE(x) == CPOINTER || DCL_TYPE(x) == GPOINTER) && IS_FUNC(x->next)) #define IS_FUNC(x) (IS_DECL(x) && DCL_TYPE(x) == FUNCTION) #define IS_LONG(x) (IS_SPEC(x) && x->select.s.b_long) #define IS_UNSIGNED(x) (IS_SPEC(x) && x->select.s.b_unsigned) #define IS_TYPEDEF(x)(IS_SPEC(x) && x->select.s.b_typedef) #define IS_CONSTANT(x) (!x ? 0 : \ IS_SPEC(x) ? \ x->select.s.b_const : \ x->select.d.ptr_const) #define IS_STRUCT(x) (IS_SPEC(x) && x->select.s.noun == V_STRUCT) #define IS_ABSOLUTE(x) (IS_SPEC(x) && x->select.s.b_absadr ) #define IS_REGISTER(x) (IS_SPEC(x) && SPEC_SCLS(x) == S_REGISTER) #define IS_RENT(x) (IS_SPEC(x) && x->select.s._reent ) #define IS_STATIC(x) (IS_SPEC(x) && SPEC_STAT(x)) #define IS_INLINE(x) (IS_SPEC(x) && SPEC_INLINE(x)) #define IS_INT(x) (IS_SPEC(x) && x->select.s.noun == V_INT) #define IS_VOID(x) (IS_SPEC(x) && x->select.s.noun == V_VOID) #define IS_CHAR(x) (IS_SPEC(x) && x->select.s.noun == V_CHAR) #define IS_EXTERN(x) (IS_SPEC(x) && x->select.s.b_extern) #define IS_VOLATILE(x) (!x ? 0 : \ IS_SPEC(x) ? \ x->select.s.b_volatile : \ x->select.d.ptr_volatile) #define IS_INTEGRAL(x) (IS_SPEC(x) && (x->select.s.noun == V_INT || \ x->select.s.noun == V_CHAR || \ x->select.s.noun == V_BITFIELD || \ x->select.s.noun == V_BIT || \ x->select.s.noun == V_SBIT )) #define IS_BITFIELD(x) (IS_SPEC(x) && (x->select.s.noun == V_BITFIELD)) #define IS_BITVAR(x) (IS_SPEC(x) && (x->select.s.noun == V_BITFIELD || \ x->select.s.noun == V_BIT || \ x->select.s.noun == V_SBIT )) #define IS_BIT(x) (IS_SPEC(x) && (x->select.s.noun == V_BIT || \ x->select.s.noun == V_SBIT )) #define IS_FLOAT(x) (IS_SPEC(x) && x->select.s.noun == V_FLOAT) #define IS_FIXED16X16(x) (IS_SPEC(x) && x->select.s.noun == V_FIXED16X16) #define IS_FIXED(x) (IS_FIXED16X16(x)) #define IS_ARITHMETIC(x) (IS_INTEGRAL(x) || IS_FLOAT(x) || IS_FIXED(x)) #define IS_AGGREGATE(x) (IS_ARRAY(x) || IS_STRUCT(x)) #define IS_LITERAL(x) (IS_SPEC(x) && x->select.s.sclass == S_LITERAL) #define IS_CODE(x) (IS_SPEC(x) && SPEC_SCLS(x) == S_CODE) #define IS_REGPARM(x) (IS_SPEC(x) && SPEC_REGPARM(x)) /* symbol check macros */ #define IS_AUTO(x) (x->level && !IS_STATIC(x->etype) && !IS_EXTERN(x->etype)) /* forward declaration for the global vars */ extern bucket *SymbolTab[]; extern bucket *StructTab[]; extern bucket *TypedefTab[]; extern bucket *LabelTab[]; extern bucket *enumTab[]; extern symbol *__fsadd; extern symbol *__fssub; extern symbol *__fsmul; extern symbol *__fsdiv; extern symbol *__fseq; extern symbol *__fsneq; extern symbol *__fslt; extern symbol *__fslteq; extern symbol *__fsgt; extern symbol *__fsgteq; extern symbol *__fps16x16_add; extern symbol *__fps16x16_sub; extern symbol *__fps16x16_mul; extern symbol *__fps16x16_div; extern symbol *__fps16x16_eq; extern symbol *__fps16x16_neq; extern symbol *__fps16x16_lt; extern symbol *__fps16x16_lteq; extern symbol *__fps16x16_gt; extern symbol *__fps16x16_gteq; /* Dims: mul/div/mod, BYTE/WORD/DWORD, SIGNED/UNSIGNED */ extern symbol *__muldiv[3][3][2]; /* Dims: BYTE/WORD/DWORD SIGNED/UNSIGNED */ extern sym_link *__multypes[3][2]; /* Dims: to/from float, BYTE/WORD/DWORD, SIGNED/USIGNED */ extern symbol *__conv[2][3][2]; /* Dims: to/from fixed16x16, BYTE/WORD/DWORD/FLOAT, SIGNED/USIGNED */ extern symbol *__fp16x16conv[2][4][2]; /* Dims: shift left/shift right, BYTE/WORD/DWORD, SIGNED/UNSIGNED */ extern symbol *__rlrr[2][3][2]; #define CHARTYPE __multypes[0][0] #define UCHARTYPE __multypes[0][1] #define INTTYPE __multypes[1][0] #define UINTTYPE __multypes[1][1] #define LONGTYPE __multypes[2][0] #define ULONGTYPE __multypes[2][1] extern sym_link *floatType; extern sym_link *fixed16x16Type; #include "SDCCval.h" typedef enum { RESULT_TYPE_NONE = 0, /* operands will be promoted to int */ RESULT_TYPE_BIT, RESULT_TYPE_CHAR, RESULT_TYPE_INT, RESULT_TYPE_OTHER, /* operands will be promoted to int */ RESULT_TYPE_IFX, } RESULT_TYPE; /* forward definitions for the symbol table related functions */ void initSymt (); symbol *newSymbol (char *, int); sym_link *newLink (SYM_LINK_CLASS); sym_link *newFloatLink (); structdef *newStruct (char *); void addDecl (symbol *, int, sym_link *); sym_link *mergeSpec (sym_link *, sym_link *, char *name); symbol *reverseSyms (symbol *); sym_link *reverseLink (sym_link *); symbol *copySymbol (symbol *); symbol *copySymbolChain (symbol *); void printSymChain (symbol *, int); void printStruct (structdef *, int); char *genSymName (int); sym_link *getSpec (sym_link *); int compStructSize (int, structdef *); sym_link *copyLinkChain (sym_link *); int checkDecl (symbol *, int); void checkBasic (sym_link *, sym_link *); value *checkPointerIval (sym_link *, value *); value *checkStructIval (symbol *, value *); value *checkArrayIval (sym_link *, value *); value *checkIval (sym_link *, value *); unsigned int getSize (sym_link *); unsigned int bitsForType (sym_link *); sym_link *newIntLink (); sym_link *newCharLink (); sym_link *newLongLink (); sym_link *newBoolLink (); int compareType (sym_link *, sym_link *); int compareTypeExact (sym_link *, sym_link *, int); int checkFunction (symbol *, symbol *); void cleanUpLevel (bucket **, int); void cleanUpBlock (bucket **, int); int funcInChain (sym_link *); void addSymChain (symbol **); sym_link *structElemType (sym_link *, value *); symbol *getStructElement (structdef *, symbol *); sym_link *computeType (sym_link *, sym_link *, RESULT_TYPE, int); void processFuncPtrArgs (sym_link *); void processFuncArgs (symbol *); int isSymbolEqual (symbol *, symbol *); int powof2 (TYPE_TARGET_ULONG); void dbuf_printTypeChain (sym_link *, struct dbuf_s *); void printTypeChain (sym_link *, FILE *); void printTypeChainRaw (sym_link *, FILE *); void initCSupport (); void initBuiltIns (); void pointerTypes (sym_link *, sym_link *); void cdbStructBlock (int); void initHashT (); bucket *newBucket (); void addSym (bucket **, void *, char *, int, int, int checkType); void deleteSym (bucket **, void *, char *); void *findSym (bucket **, void *, const char *); void *findSymWithLevel (bucket **, struct symbol *); void *findSymWithBlock (bucket **, struct symbol *, int); void changePointer (sym_link * p); void checkTypeSanity(sym_link *etype, char *name); sym_link *typeFromStr (char *) ; STORAGE_CLASS sclsFromPtr(sym_link *ptr); sym_link *newEnumType (symbol *); void promoteAnonStructs (int, structdef *); extern char *nounName(sym_link *); /* noun strings */ extern void printFromToType (sym_link *, sym_link *); #endif