X-Git-Url: https://git.sur5r.net/?a=blobdiff_plain;f=src%2Fcc65%2Fcodeinfo.c;h=cf04baf9c3a39808af1ce192f12441896b37e20c;hb=92dfde6c4e748946c5e13323bb48bf2abd72c2b3;hp=028c82b9ed364f9b1b0eb3c1919a79aa97a93fbf;hpb=caf73cf15f5d0deda5e4f7172be990a194e8a8c4;p=cc65 diff --git a/src/cc65/codeinfo.c b/src/cc65/codeinfo.c index 028c82b9e..cf04baf9c 100644 --- a/src/cc65/codeinfo.c +++ b/src/cc65/codeinfo.c @@ -6,7 +6,7 @@ /* */ /* */ /* */ -/* (C) 2001 Ullrich von Bassewitz */ +/* (C) 2001-2002 Ullrich von Bassewitz */ /* Wacholderweg 14 */ /* D-70597 Stuttgart */ /* EMail: uz@cc65.org */ @@ -44,6 +44,7 @@ #include "codeseg.h" #include "datatype.h" #include "error.h" +#include "reginfo.h" #include "symtab.h" #include "codeinfo.h" @@ -55,82 +56,197 @@ +/* Table with the compare suffixes */ +static const char CmpSuffixTab [][4] = { + "eq", "ne", "gt", "ge", "lt", "le", "ugt", "uge", "ult", "ule" +}; + /* Table listing the function names and code info values for known internally * used functions. This table should get auto-generated in the future. */ typedef struct FuncInfo FuncInfo; struct FuncInfo { const char* Name; /* Function name */ - unsigned char Use; /* Register usage */ - unsigned char Chg; /* Changed/destroyed registers */ + unsigned short Use; /* Register usage */ + unsigned short Chg; /* Changed/destroyed registers */ }; static const FuncInfo FuncInfoTable[] = { - { "addysp", REG_Y, REG_NONE }, - { "booleq", REG_NONE, REG_AX }, - { "boolge", REG_NONE, REG_AX }, - { "boolgt", REG_NONE, REG_AX }, - { "boolle", REG_NONE, REG_AX }, - { "boollt", REG_NONE, REG_AX }, - { "boolne", REG_NONE, REG_AX }, - { "booluge", REG_NONE, REG_AX }, - { "boolugt", REG_NONE, REG_AX }, - { "boolule", REG_NONE, REG_AX }, - { "boolult", REG_NONE, REG_AX }, - { "decax1", REG_AX, REG_AX }, - { "decax2", REG_AX, REG_AX }, - { "decax3", REG_AX, REG_AX }, - { "decax4", REG_AX, REG_AX }, - { "decax5", REG_AX, REG_AX }, - { "decax6", REG_AX, REG_AX }, - { "decax7", REG_AX, REG_AX }, - { "decax8", REG_AX, REG_AX }, - { "decaxy", REG_AXY, REG_AX }, - { "decsp2", REG_NONE, REG_A }, - { "decsp3", REG_NONE, REG_A }, - { "decsp4", REG_NONE, REG_A }, - { "decsp5", REG_NONE, REG_A }, - { "decsp6", REG_NONE, REG_A }, - { "decsp7", REG_NONE, REG_A }, - { "decsp8", REG_NONE, REG_A }, - { "incsp1", REG_NONE, REG_NONE }, - { "incsp2", REG_NONE, REG_Y }, - { "incsp3", REG_NONE, REG_Y }, - { "incsp4", REG_NONE, REG_Y }, - { "incsp5", REG_NONE, REG_Y }, - { "incsp6", REG_NONE, REG_Y }, - { "incsp7", REG_NONE, REG_Y }, - { "incsp8", REG_NONE, REG_Y }, - { "ldax0sp", REG_Y, REG_AX }, - { "ldaxysp", REG_Y, REG_AX }, - { "pusha", REG_A, REG_Y }, - { "pusha0", REG_A, REG_XY }, - { "pushax", REG_AX, REG_Y }, - { "pushw0sp", REG_NONE, REG_AXY }, - { "pushwysp", REG_Y, REG_AXY }, - { "tosicmp", REG_AX, REG_AXY }, + { "addeq0sp", REG_AX, REG_AXY }, + { "addeqysp", REG_AXY, REG_AXY }, + { "addysp", REG_Y, REG_NONE }, + { "aslax1", REG_AX, REG_AX | REG_TMP1 }, + { "aslax2", REG_AX, REG_AX | REG_TMP1 }, + { "aslax3", REG_AX, REG_AX | REG_TMP1 }, + { "aslax4", REG_AX, REG_AX | REG_TMP1 }, + { "bnega", REG_A, REG_AX }, + { "bnegax", REG_AX, REG_AX }, + { "bnegeax", REG_EAX, REG_EAX }, + { "booleq", REG_NONE, REG_AX }, + { "boolge", REG_NONE, REG_AX }, + { "boolgt", REG_NONE, REG_AX }, + { "boolle", REG_NONE, REG_AX }, + { "boollt", REG_NONE, REG_AX }, + { "boolne", REG_NONE, REG_AX }, + { "booluge", REG_NONE, REG_AX }, + { "boolugt", REG_NONE, REG_AX }, + { "boolule", REG_NONE, REG_AX }, + { "boolult", REG_NONE, REG_AX }, + { "complax", REG_AX, REG_AX }, + { "decax1", REG_AX, REG_AX }, + { "decax2", REG_AX, REG_AX }, + { "decax3", REG_AX, REG_AX }, + { "decax4", REG_AX, REG_AX }, + { "decax5", REG_AX, REG_AX }, + { "decax6", REG_AX, REG_AX }, + { "decax7", REG_AX, REG_AX }, + { "decax8", REG_AX, REG_AX }, + { "decaxy", REG_AXY, REG_AX | REG_TMP1 }, + { "deceaxy", REG_EAXY, REG_EAX }, + { "decsp1", REG_NONE, REG_Y }, + { "decsp2", REG_NONE, REG_A }, + { "decsp3", REG_NONE, REG_A }, + { "decsp4", REG_NONE, REG_A }, + { "decsp5", REG_NONE, REG_A }, + { "decsp6", REG_NONE, REG_A }, + { "decsp7", REG_NONE, REG_A }, + { "decsp8", REG_NONE, REG_A }, + { "incax1", REG_AX, REG_AX }, + { "incax2", REG_AX, REG_AX }, + { "incsp1", REG_NONE, REG_NONE }, + { "incsp2", REG_NONE, REG_Y }, + { "incsp3", REG_NONE, REG_Y }, + { "incsp4", REG_NONE, REG_Y }, + { "incsp5", REG_NONE, REG_Y }, + { "incsp6", REG_NONE, REG_Y }, + { "incsp7", REG_NONE, REG_Y }, + { "incsp8", REG_NONE, REG_Y }, + { "laddeq", REG_EAXY|REG_PTR1_LO, REG_EAXY | REG_PTR1_HI }, + { "laddeq1", REG_Y | REG_PTR1_LO, REG_EAXY | REG_PTR1_HI }, + { "laddeqa", REG_AY | REG_PTR1_LO, REG_EAXY | REG_PTR1_HI }, + { "laddeq0sp", REG_EAX, REG_EAXY }, + { "laddeqysp", REG_EAXY, REG_EAXY }, + { "ldaidx", REG_AXY, REG_AX | REG_PTR1 }, + { "ldauidx", REG_AXY, REG_AX | REG_PTR1 }, + { "ldax0sp", REG_NONE, REG_AXY }, + { "ldaxi", REG_AX, REG_AXY | REG_PTR1 }, + { "ldaxidx", REG_AXY, REG_AXY | REG_PTR1 }, + { "ldaxysp", REG_Y, REG_AXY }, + { "ldeax0sp", REG_NONE, REG_EAXY }, + { "ldeaxi", REG_AX, REG_EAXY | REG_PTR1 }, + { "ldeaxidx", REG_AXY, REG_EAXY | REG_PTR1 }, + { "ldeaxysp", REG_Y, REG_EAXY }, + { "leaasp", REG_A, REG_AX }, + { "lsubeq", REG_EAXY|REG_PTR1_LO, REG_EAXY | REG_PTR1_HI }, + { "lsubeq0sp", REG_EAX, REG_EAXY }, + { "lsubeq1", REG_Y | REG_PTR1_LO, REG_EAXY | REG_PTR1_HI }, + { "lsubeqa", REG_AY | REG_PTR1_LO, REG_EAXY | REG_PTR1_HI }, + { "lsubeqysp", REG_EAXY, REG_EAXY }, + { "lsubeq0sp", REG_EAX, REG_EAXY }, + { "negax", REG_AX, REG_AX }, + { "push0", REG_NONE, REG_AXY }, + { "push1", REG_NONE, REG_AXY }, + { "push2", REG_NONE, REG_AXY }, + { "push3", REG_NONE, REG_AXY }, + { "push4", REG_NONE, REG_AXY }, + { "push5", REG_NONE, REG_AXY }, + { "push6", REG_NONE, REG_AXY }, + { "push7", REG_NONE, REG_AXY }, + { "pusha", REG_A, REG_Y }, + { "pusha0", REG_A, REG_XY }, + { "pusha0sp", REG_NONE, REG_AY }, + { "pushax", REG_AX, REG_Y }, + { "pushaysp", REG_Y, REG_AY }, + { "pushc0", REG_NONE, REG_A | REG_Y }, + { "pushc1", REG_NONE, REG_A | REG_Y }, + { "pushc2", REG_NONE, REG_A | REG_Y }, + { "pusheax", REG_EAX, REG_Y }, + { "pushw", REG_AX, REG_AXY | REG_PTR1 }, + { "pushw0sp", REG_NONE, REG_AXY }, + { "pushwidx", REG_AXY, REG_AXY | REG_PTR1 }, + { "pushwysp", REG_Y, REG_AXY }, + { "regswap", REG_AXY, REG_AXY | REG_TMP1 }, + { "regswap1", REG_XY, REG_A }, + { "regswap2", REG_XY, REG_A | REG_Y }, + { "shlax1", REG_AX, REG_AX | REG_TMP1 }, + { "shlax2", REG_AX, REG_AX | REG_TMP1 }, + { "shlax3", REG_AX, REG_AX | REG_TMP1 }, + { "shlax4", REG_AX, REG_AX | REG_TMP1 }, + { "shrax1", REG_AX, REG_AX | REG_TMP1 }, + { "shrax2", REG_AX, REG_AX | REG_TMP1 }, + { "shrax3", REG_AX, REG_AX | REG_TMP1 }, + { "shrax4", REG_AX, REG_AX | REG_TMP1 }, + { "shreax1", REG_EAX, REG_AX | REG_TMP1 }, + { "shreax2", REG_EAX, REG_AX | REG_TMP1 }, + { "shreax3", REG_EAX, REG_AX | REG_TMP1 }, + { "shreax4", REG_EAX, REG_AX | REG_TMP1 }, + { "staspidx", REG_A | REG_Y, REG_Y | REG_TMP1 | REG_PTR1 }, + { "stax0sp", REG_AX, REG_Y }, + { "staxysp", REG_AXY, REG_Y }, + { "steax0sp", REG_EAX, REG_Y }, + { "steaxysp", REG_EAXY, REG_Y }, + { "subeq0sp", REG_AX, REG_AXY }, + { "subeqysp", REG_AXY, REG_AXY }, + { "tosadda0", REG_A, REG_AXY }, + { "tosaddax", REG_AX, REG_AXY }, + { "tosanda0", REG_A, REG_AXY }, + { "tosandax", REG_AX, REG_AXY }, + { "tosdiva0", REG_AY, REG_ALL }, + { "tosdivax", REG_AXY, REG_ALL }, + { "tosdiveax", REG_EAXY, REG_ALL }, + { "toseqeax", REG_EAX, REG_AXY | REG_PTR1 }, + { "tosgeeax", REG_EAX, REG_AXY | REG_PTR1 }, + { "tosgteax", REG_EAX, REG_AXY | REG_PTR1 }, + { "tosicmp", REG_AX, REG_AXY | REG_SREG }, + { "toslcmp", REG_EAX, REG_A | REG_Y | REG_PTR1 }, + { "tosleeax", REG_EAX, REG_AXY | REG_PTR1 }, + { "toslteax", REG_EAX, REG_AXY | REG_PTR1 }, + { "tosmula0", REG_AX, REG_ALL }, + { "tosmulax", REG_AX, REG_ALL }, + { "tosmuleax", REG_EAX, REG_ALL }, + { "tosneeax", REG_EAX, REG_AXY | REG_PTR1 }, + { "tosshreax", REG_EAX, REG_EAXY | REG_PTR1 | REG_PTR2 }, + { "tossuba0", REG_A, REG_AXY }, + { "tossubax", REG_AX, REG_AXY }, + { "tossubeax", REG_EAX, REG_EAXY }, + { "tosugeeax", REG_EAX, REG_AXY | REG_PTR1 }, + { "tosugteax", REG_EAX, REG_AXY | REG_PTR1 }, + { "tosuleeax", REG_EAX, REG_AXY | REG_PTR1 }, + { "tosulteax", REG_EAX, REG_AXY | REG_PTR1 }, + { "tosumula0", REG_AX, REG_ALL }, + { "tosumulax", REG_AX, REG_ALL }, + { "tosumuleax", REG_EAX, REG_ALL }, + { "tsteax", REG_EAX, REG_Y }, + { "utsteax", REG_EAX, REG_Y }, }; #define FuncInfoCount (sizeof(FuncInfoTable) / sizeof(FuncInfoTable[0])) /* Table with names of zero page locations used by the compiler */ -typedef struct ZPInfo ZPInfo; -struct ZPInfo { - unsigned char Len; /* Length of the following string */ - char Name[11]; /* Name of zero page symbol */ -}; static const ZPInfo ZPInfoTable[] = { - { 4, "ptr1" }, - { 7, "regbank" }, - { 7, "regsave" }, - { 2, "sp" }, - { 4, "sreg" }, - { 4, "tmp1" }, + { 0, "ptr1", REG_PTR1_LO, REG_PTR1 }, + { 0, "ptr1+1", REG_PTR1_HI, REG_PTR1 }, + { 0, "ptr2", REG_PTR2_LO, REG_PTR2 }, + { 0, "ptr2+1", REG_PTR2_HI, REG_PTR2 }, + { 4, "ptr3", REG_NONE, REG_NONE }, + { 4, "ptr4", REG_NONE, REG_NONE }, + { 7, "regbank", REG_NONE, REG_NONE }, + { 0, "regsave", REG_SAVE_LO, REG_SAVE }, + { 0, "regsave+1", REG_SAVE_HI, REG_SAVE }, + { 0, "sp", REG_SP_LO, REG_SP }, + { 0, "sp+1", REG_SP_HI, REG_SP }, + { 0, "sreg", REG_SREG_LO, REG_SREG }, + { 0, "sreg+1", REG_SREG_HI, REG_SREG }, + { 0, "tmp1", REG_TMP1, REG_TMP1 }, + { 0, "tmp2", REG_NONE, REG_NONE }, + { 0, "tmp3", REG_NONE, REG_NONE }, + { 0, "tmp4", REG_NONE, REG_NONE }, }; #define ZPInfoCount (sizeof(ZPInfoTable) / sizeof(ZPInfoTable[0])) + /*****************************************************************************/ -/* Code */ +/* Code */ /*****************************************************************************/ @@ -143,7 +259,7 @@ static int CompareFuncInfo (const void* Key, const void* Info) -void GetFuncInfo (const char* Name, unsigned char* Use, unsigned char* Chg) +void GetFuncInfo (const char* Name, unsigned short* Use, unsigned short* Chg) /* For the given function, lookup register information and store it into * the given variables. If the function is unknown, assume it will use and * load all registers. @@ -157,10 +273,10 @@ void GetFuncInfo (const char* Name, unsigned char* Use, unsigned char* Chg) if (Name[0] == '_') { /* Search in the symbol table, skip the leading underscore */ - SymEntry* E = FindSym (Name+1); + SymEntry* E = FindGlobalSym (Name+1); /* Did we find it in the top level table? */ - if (E && E->Owner->PrevTab == 0 && IsTypeFunc (E->Type)) { + if (E && IsTypeFunc (E->Type)) { /* A function may use the A or A/X registers if it is a fastcall * function. If it is not a fastcall function but a variadic one, @@ -172,11 +288,14 @@ void GetFuncInfo (const char* Name, unsigned char* Use, unsigned char* Chg) if ((D->Flags & FD_FASTCALL) != 0 && D->ParamCount > 0) { /* Will use registers depending on the last param */ SymEntry* LastParam = D->SymTab->SymTail; - if (SizeOf (LastParam->Type) == 1) { + unsigned LastParamSize = CheckedSizeOf (LastParam->Type); + if (LastParamSize == 1) { *Use = REG_A; - } else { + } else if (LastParamSize == 2) { *Use = REG_AX; - } + } else { + *Use = REG_EAX; + } } else if ((D->Flags & FD_VARIADIC) != 0) { *Use = REG_Y; } else { @@ -185,7 +304,7 @@ void GetFuncInfo (const char* Name, unsigned char* Use, unsigned char* Chg) } /* Will destroy all registers */ - *Chg = REG_AXY; + *Chg = REG_ALL; /* Done */ return; @@ -193,7 +312,7 @@ void GetFuncInfo (const char* Name, unsigned char* Use, unsigned char* Chg) } else { - /* Search for the function in the list of builtin functions */ + /* Search for the function in the list of builtin functions */ const FuncInfo* Info = bsearch (Name, FuncInfoTable, FuncInfoCount, sizeof(FuncInfo), CompareFuncInfo); @@ -206,61 +325,81 @@ void GetFuncInfo (const char* Name, unsigned char* Use, unsigned char* Chg) } } - /* Function not found - assume all registers used */ - *Use = REG_AXY; - *Chg = REG_AXY; + /* Function not found - assume that the primary register is input, and all + * registers are changed + */ + *Use = REG_EAXY; + *Chg = REG_ALL; } -int IsZPName (const char* Name) -/* Return true if the given name is a zero page symbol */ +static int CompareZPInfo (const void* Name, const void* Info) +/* Compare function for bsearch */ { - unsigned I; - const ZPInfo* Info; + /* Cast the pointers to the correct data type */ + const char* N = (const char*) Name; + const ZPInfo* E = (const ZPInfo*) Info; - /* Because of the low number of symbols, we do a linear search here */ - for (I = 0, Info = ZPInfoTable; I < ZPInfoCount; ++I, ++Info) { - if (strncmp (Name, Info->Name, Info->Len) == 0 && - (Name[Info->Len] == '\0' || Name[Info->Len] == '+')) { - /* Found */ - return 1; + /* Do the compare. Be careful because of the length (Info may contain + * more than just the zeropage name). + */ + if (E->Len == 0) { + /* Do a full compare */ + return strcmp (N, E->Name); + } else { + /* Only compare the first part */ + int Res = strncmp (N, E->Name, E->Len); + if (Res == 0 && (N[E->Len] != '\0' && N[E->Len] != '+')) { + /* Name is actually longer than Info->Name */ + Res = -1; } + return Res; } +} - /* Not found */ - return 0; + + +const ZPInfo* GetZPInfo (const char* Name) +/* If the given name is a zero page symbol, return a pointer to the info + * struct for this symbol, otherwise return NULL. + */ +{ + /* Search for the zp location in the list */ + return bsearch (Name, ZPInfoTable, ZPInfoCount, + sizeof(ZPInfo), CompareZPInfo); } -static unsigned char GetRegInfo2 (CodeSeg* S, - CodeEntry* E, - int Index, - Collection* Visited, - unsigned char Used, - unsigned char Unused) +static unsigned GetRegInfo2 (CodeSeg* S, + CodeEntry* E, + int Index, + Collection* Visited, + unsigned Used, + unsigned Unused, + unsigned Wanted) /* Recursively called subfunction for GetRegInfo. */ { /* Follow the instruction flow recording register usage. */ while (1) { - unsigned char R; + unsigned R; /* Check if we have already visited the current code entry. If so, * bail out. */ - if (CodeEntryHasMark (E)) { + if (CE_HasMark (E)) { break; } /* Mark this entry as already visited */ - CodeEntrySetMark (E); + CE_SetMark (E); CollAppend (Visited, E); /* Evaluate the used registers */ R = E->Use; - if (E->OPC == OPC_RTS || + if (E->OPC == OP65_RTS || ((E->Info & OF_BRA) != 0 && E->JumpTo == 0)) { /* This instruction will leave the function */ R |= S->ExitRegs; @@ -285,12 +424,12 @@ static unsigned char GetRegInfo2 (CodeSeg* S, } /* If we know about all registers now, bail out */ - if ((Used | Unused) == REG_AXY) { + if (((Used | Unused) & Wanted) == Wanted) { break; } /* If the instruction is an RTS or RTI, we're done */ - if (E->OPC == OPC_RTS || E->OPC == OPC_RTI) { + if ((E->Info & OF_RET) != 0) { break; } @@ -304,7 +443,7 @@ static unsigned char GetRegInfo2 (CodeSeg* S, /* Unconditional jump */ E = E->JumpTo->Owner; - Index = -1; /* Invalidate */ + Index = -1; /* Invalidate */ } else { /* Jump outside means we're done */ @@ -320,21 +459,21 @@ static unsigned char GetRegInfo2 (CodeSeg* S, if (E->JumpTo) { /* Recursively determine register usage at the branch target */ - unsigned char U1; - unsigned char U2; + unsigned U1; + unsigned U2; - U1 = GetRegInfo2 (S, E->JumpTo->Owner, -1, Visited, Used, Unused); - if (U1 == REG_AXY) { + U1 = GetRegInfo2 (S, E->JumpTo->Owner, -1, Visited, Used, Unused, Wanted); + if (U1 == REG_ALL) { /* All registers used, no need for second call */ return REG_AXY; } if (Index < 0) { - Index = GetCodeEntryIndex (S, E); + Index = CS_GetEntryIndex (S, E); } - if ((E = GetCodeEntry (S, ++Index)) == 0) { + if ((E = CS_GetEntry (S, ++Index)) == 0) { Internal ("GetRegInfo2: No next entry!"); } - U2 = GetRegInfo2 (S, E, Index, Visited, Used, Unused); + U2 = GetRegInfo2 (S, E, Index, Visited, Used, Unused, Wanted); return U1 | U2; /* Used in any of the branches */ } else { @@ -346,9 +485,9 @@ static unsigned char GetRegInfo2 (CodeSeg* S, /* Just go to the next instruction */ if (Index < 0) { - Index = GetCodeEntryIndex (S, E); + Index = CS_GetEntryIndex (S, E); } - E = GetCodeEntry (S, ++Index); + E = CS_GetEntry (S, ++Index); if (E == 0) { /* No next entry */ Internal ("GetRegInfo2: No next entry!"); @@ -364,25 +503,26 @@ static unsigned char GetRegInfo2 (CodeSeg* S, -static unsigned char GetRegInfo1 (CodeSeg* S, - CodeEntry* E, - int Index, - Collection* Visited, - unsigned char Used, - unsigned char Unused) +static unsigned GetRegInfo1 (CodeSeg* S, + CodeEntry* E, + int Index, + Collection* Visited, + unsigned Used, + unsigned Unused, + unsigned Wanted) /* Recursively called subfunction for GetRegInfo. */ { /* Remember the current count of the line collection */ unsigned Count = CollCount (Visited); /* Call the worker routine */ - unsigned char R = GetRegInfo2 (S, E, Index, Visited, Used, Unused); + unsigned R = GetRegInfo2 (S, E, Index, Visited, Used, Unused, Wanted); /* Restore the old count, unmarking all new entries */ unsigned NewCount = CollCount (Visited); while (NewCount-- > Count) { CodeEntry* E = CollAt (Visited, NewCount); - CodeEntryResetMark (E); + CE_ResetMark (E); CollDelete (Visited, NewCount); } @@ -392,27 +532,27 @@ static unsigned char GetRegInfo1 (CodeSeg* S, -unsigned char GetRegInfo (struct CodeSeg* S, unsigned Index) +unsigned GetRegInfo (struct CodeSeg* S, unsigned Index, unsigned Wanted) /* Determine register usage information for the instructions starting at the * given index. */ { - CodeEntry* E; - Collection Visited; /* Visited entries */ - unsigned char R; + CodeEntry* E; + Collection Visited; /* Visited entries */ + unsigned R; /* Get the code entry for the given index */ - if (Index >= GetCodeEntryCount (S)) { + if (Index >= CS_GetEntryCount (S)) { /* There is no such code entry */ return REG_NONE; } - E = GetCodeEntry (S, Index); + E = CS_GetEntry (S, Index); /* Initialize the data structure used to collection information */ InitCollection (&Visited); /* Call the recursive subfunction */ - R = GetRegInfo1 (S, E, Index, &Visited, REG_NONE, REG_NONE); + R = GetRegInfo1 (S, E, Index, &Visited, REG_NONE, REG_NONE, Wanted); /* Delete the line collection */ DoneCollection (&Visited); @@ -426,7 +566,7 @@ unsigned char GetRegInfo (struct CodeSeg* S, unsigned Index) int RegAUsed (struct CodeSeg* S, unsigned Index) /* Check if the value in A is used. */ { - return (GetRegInfo (S, Index) & REG_A) != 0; + return (GetRegInfo (S, Index, REG_A) & REG_A) != 0; } @@ -434,7 +574,7 @@ int RegAUsed (struct CodeSeg* S, unsigned Index) int RegXUsed (struct CodeSeg* S, unsigned Index) /* Check if the value in X is used. */ { - return (GetRegInfo (S, Index) & REG_X) != 0; + return (GetRegInfo (S, Index, REG_X) & REG_X) != 0; } @@ -442,7 +582,104 @@ int RegXUsed (struct CodeSeg* S, unsigned Index) int RegYUsed (struct CodeSeg* S, unsigned Index) /* Check if the value in Y is used. */ { - return (GetRegInfo (S, Index) & REG_Y) != 0; + return (GetRegInfo (S, Index, REG_Y) & REG_Y) != 0; +} + + + +int RegAXUsed (struct CodeSeg* S, unsigned Index) +/* Check if the value in A or(!) the value in X are used. */ +{ + return (GetRegInfo (S, Index, REG_AX) & REG_AX) != 0; +} + + + +int RegEAXUsed (struct CodeSeg* S, unsigned Index) +/* Check if any of the four bytes in EAX are used. */ +{ + return (GetRegInfo (S, Index, REG_EAX) & REG_EAX) != 0; +} + + + +unsigned GetKnownReg (unsigned Use, const RegContents* RC) +/* Return the register or zero page location from the set in Use, thats + * contents are known. If Use does not contain any register, or if the + * register in question does not have a known value, return REG_NONE. + */ +{ + if ((Use & REG_A) != 0) { + return (RC == 0 || RC->RegA >= 0)? REG_A : REG_NONE; + } else if ((Use & REG_X) != 0) { + return (RC == 0 || RC->RegX >= 0)? REG_X : REG_NONE; + } else if ((Use & REG_Y) != 0) { + return (RC == 0 || RC->RegY >= 0)? REG_Y : REG_NONE; + } else if ((Use & REG_TMP1) != 0) { + return (RC == 0 || RC->Tmp1 >= 0)? REG_TMP1 : REG_NONE; + } else if ((Use & REG_SREG_LO) != 0) { + return (RC == 0 || RC->SRegLo >= 0)? REG_SREG_LO : REG_NONE; + } else if ((Use & REG_SREG_HI) != 0) { + return (RC == 0 || RC->SRegHi >= 0)? REG_SREG_HI : REG_NONE; + } else { + return REG_NONE; + } +} + + + +static cmp_t FindCmpCond (const char* Code, unsigned CodeLen) +/* Search for a compare condition by the given code using the given length */ +{ + unsigned I; + + /* Linear search */ + for (I = 0; I < sizeof (CmpSuffixTab) / sizeof (CmpSuffixTab [0]); ++I) { + if (strncmp (Code, CmpSuffixTab [I], CodeLen) == 0) { + /* Found */ + return I; + } + } + + /* Not found */ + return CMP_INV; +} + + + +cmp_t FindBoolCmpCond (const char* Name) +/* Check if the given string is the name of one of the boolean transformer + * subroutine, and if so, return the condition that is evaluated by this + * routine. Return CMP_INV if the condition is not recognised. + */ +{ + /* Check for the correct subroutine name */ + if (strncmp (Name, "bool", 4) == 0) { + /* Name is ok, search for the code in the table */ + return FindCmpCond (Name+4, strlen(Name)-4); + } else { + /* Not found */ + return CMP_INV; + } +} + + + +cmp_t FindTosCmpCond (const char* Name) +/* Check if this is a call to one of the TOS compare functions (tosgtax). + * Return the condition code or CMP_INV on failure. + */ +{ + unsigned Len = strlen (Name); + + /* Check for the correct subroutine name */ + if (strncmp (Name, "tos", 3) == 0 && strcmp (Name+Len-2, "ax") == 0) { + /* Name is ok, search for the code in the table */ + return FindCmpCond (Name+3, Len-3-2); + } else { + /* Not found */ + return CMP_INV; + } }