/* */
/* */
/* */
-/* (C) 2001 Ullrich von Bassewitz */
-/* Wacholderweg 14 */
-/* D-70597 Stuttgart */
-/* EMail: uz@cc65.org */
+/* (C) 2001-2009, Ullrich von Bassewitz */
+/* Roemerstrasse 52 */
+/* D-70794 Filderstadt */
+/* EMail: uz@cc65.org */
/* */
/* */
/* This software is provided 'as-is', without any expressed or implied */
#include <string.h>
/* common */
+#include "chartype.h"
#include "coll.h"
+#include "debugflag.h"
/* cc65 */
#include "codeent.h"
#include "codeseg.h"
#include "datatype.h"
#include "error.h"
+#include "reginfo.h"
#include "symtab.h"
#include "codeinfo.h"
+/* 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 short Use; /* Register usage */
- unsigned short Chg; /* Changed/destroyed registers */
+ const char* Name; /* Function name */
+ unsigned short Use; /* Register usage */
+ unsigned short Chg; /* Changed/destroyed registers */
};
+/* Note for the shift functions: Shifts are done modulo 32, so all shift
+ * routines are marked to use only the A register. The remainder is ignored
+ * anyway.
+ */
static const FuncInfo FuncInfoTable[] = {
+ { "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 },
+ { "asleax1", REG_EAX, REG_EAX | REG_TMP1 },
+ { "asleax2", REG_EAX, REG_EAX | REG_TMP1 },
+ { "asleax3", REG_EAX, REG_EAX | REG_TMP1 },
+ { "asleax4", REG_EAX, REG_EAXY | REG_TMP1 },
+ { "asrax1", REG_AX, REG_AX | REG_TMP1 },
+ { "asrax2", REG_AX, REG_AX | REG_TMP1 },
+ { "asrax3", REG_AX, REG_AX | REG_TMP1 },
+ { "asrax4", REG_AX, REG_AX | REG_TMP1 },
+ { "asreax1", REG_EAX, REG_EAX | REG_TMP1 },
+ { "asreax2", REG_EAX, REG_EAX | REG_TMP1 },
+ { "asreax3", REG_EAX, REG_EAX | REG_TMP1 },
+ { "asreax4", REG_EAX, REG_EAXY | REG_TMP1 },
{ "bnega", REG_A, REG_AX },
{ "bnegax", REG_AX, REG_AX },
{ "bnegeax", REG_EAX, REG_EAX },
{ "boolge", REG_NONE, REG_AX },
{ "boolgt", REG_NONE, REG_AX },
{ "boolle", REG_NONE, REG_AX },
- { "boollt", 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 },
+ { "callax", REG_AX, REG_ALL },
{ "complax", REG_AX, REG_AX },
{ "decax1", REG_AX, REG_AX },
{ "decax2", 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 },
{ "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 },
+ { "incax1", REG_AX, REG_AX },
+ { "incax2", REG_AX, REG_AX },
+ { "incax3", REG_AX, REG_AXY | REG_TMP1 },
+ { "incax4", REG_AX, REG_AXY | REG_TMP1 },
+ { "incax5", REG_AX, REG_AXY | REG_TMP1 },
+ { "incax6", REG_AX, REG_AXY | REG_TMP1 },
+ { "incax7", REG_AX, REG_AXY | REG_TMP1 },
+ { "incax8", REG_AX, REG_AXY | REG_TMP1 },
+ { "incaxy", REG_AXY, REG_AXY | REG_TMP1 },
{ "incsp1", REG_NONE, REG_NONE },
{ "incsp2", REG_NONE, REG_Y },
{ "incsp3", REG_NONE, REG_Y },
{ "incsp6", REG_NONE, REG_Y },
{ "incsp7", REG_NONE, REG_Y },
{ "incsp8", REG_NONE, REG_Y },
- { "laddeq", REG_EAXY | REG_PTR1, REG_EAXY },
- { "laddeq1", REG_Y | REG_PTR1, REG_EAXY },
- { "laddeqa", REG_AY | REG_PTR1, REG_EAXY },
+ { "laddeq", REG_EAXY|REG_PTR1_LO, REG_EAXY | REG_PTR1_HI },
+ { "laddeq0sp", REG_EAX, REG_EAXY },
+ { "laddeq1", REG_Y | REG_PTR1_LO, REG_EAXY | REG_PTR1_HI },
+ { "laddeqa", REG_AY | REG_PTR1_LO, REG_EAXY | REG_PTR1_HI },
+ { "laddeqysp", REG_EAXY, REG_EAXY },
{ "ldaidx", REG_AXY, REG_AX | REG_PTR1 },
{ "ldauidx", REG_AXY, REG_AX | REG_PTR1 },
- { "ldax0sp", REG_Y, REG_AX },
+ { "ldax0sp", REG_NONE, REG_AXY },
{ "ldaxi", REG_AX, REG_AXY | REG_PTR1 },
- { "ldaxidx", REG_AXY, REG_AX | REG_PTR1 },
- { "ldaxysp", REG_Y, REG_AX },
- { "leaasp", REG_A, REG_AX },
+ { "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 },
+ { "leaa0sp", REG_A, REG_AX },
+ { "leaaxsp", REG_AX, 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 },
+ { "mulax10", REG_AX, REG_AX | REG_PTR1 },
+ { "mulax3", REG_AX, REG_AX | REG_PTR1 },
+ { "mulax5", REG_AX, REG_AX | REG_PTR1 },
+ { "mulax6", REG_AX, REG_AX | REG_PTR1 },
+ { "mulax7", REG_AX, REG_AX | REG_PTR1 },
+ { "mulax9", REG_AX, REG_AX | REG_PTR1 },
{ "negax", REG_AX, REG_AX },
+ { "push0", REG_NONE, REG_AXY },
+ { "push0ax", REG_AX, REG_Y | REG_SREG },
+ { "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 },
- { "pushax", REG_AX, REG_Y },
+ { "pusha0sp", REG_NONE, REG_AY },
+ { "pushaFF", REG_A, REG_Y },
+ { "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 },
+ { "return0", REG_NONE, REG_AX },
+ { "return1", REG_NONE, REG_AX },
{ "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 },
+ { "shleax1", REG_EAX, REG_EAX | REG_TMP1 },
+ { "shleax2", REG_EAX, REG_EAX | REG_TMP1 },
+ { "shleax3", REG_EAX, REG_EAX | REG_TMP1 },
+ { "shleax4", REG_EAX, REG_EAXY | 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 },
+ { "shreax1", REG_EAX, REG_EAX | REG_TMP1 },
+ { "shreax2", REG_EAX, REG_EAX | REG_TMP1 },
+ { "shreax3", REG_EAX, REG_EAX | REG_TMP1 },
+ { "shreax4", REG_EAX, REG_EAXY | REG_TMP1 },
{ "staspidx", REG_A | REG_Y, REG_Y | REG_TMP1 | REG_PTR1 },
- { "stax0sp", REG_AX, REG_Y },
+ { "stax0sp", REG_AX, REG_Y },
+ { "staxspidx", REG_AXY, REG_TMP1 | REG_PTR1 },
+ { "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 },
+ { "tosadd0ax", REG_AX, REG_EAXY | REG_TMP1 },
+ { "tosadda0", REG_A, REG_AXY },
+ { "tosaddax", REG_AX, REG_AXY },
+ { "tosaddeax", REG_EAX, REG_EAXY | REG_TMP1 },
+ { "tosand0ax", REG_AX, REG_EAX | REG_TMP1 },
+ { "tosanda0", REG_A, REG_AXY },
+ { "tosandax", REG_AX, REG_AXY },
+ { "tosandeax", REG_EAX, REG_EAX | REG_TMP1 },
+ { "tosaslax", REG_A, REG_AXY | REG_TMP1 },
+ { "tosasleax", REG_A, REG_EAXY | REG_TMP1 },
+ { "tosasrax", REG_A, REG_AXY | REG_TMP1 },
+ { "tosasreax", REG_A, REG_EAXY | REG_TMP1 },
+ { "tosdiv0ax", REG_AX, REG_ALL },
+ { "tosdiva0", REG_A, REG_ALL },
+ { "tosdivax", REG_AX, REG_ALL },
+ { "tosdiveax", REG_EAX, REG_ALL },
+ { "toseq00", REG_NONE, REG_AXY | REG_SREG },
+ { "toseqa0", REG_A, REG_AXY | REG_SREG },
+ { "toseqax", REG_AX, REG_AXY | REG_SREG },
+ { "toseqeax", REG_EAX, REG_AXY | REG_PTR1 },
+ { "tosge00", REG_NONE, REG_AXY | REG_SREG },
+ { "tosgea0", REG_A, REG_AXY | REG_SREG },
+ { "tosgeax", REG_AX, REG_AXY | REG_SREG },
+ { "tosgeeax", REG_EAX, REG_AXY | REG_PTR1 },
+ { "tosgt00", REG_NONE, REG_AXY | REG_SREG },
+ { "tosgta0", REG_A, REG_AXY | REG_SREG },
+ { "tosgtax", REG_AX, REG_AXY | REG_SREG },
+ { "tosgteax", REG_EAX, REG_AXY | REG_PTR1 },
{ "tosicmp", REG_AX, REG_AXY | REG_SREG },
- { "tosdiva0", REG_AX, REG_ALL },
- { "tosdivax", REG_AX, REG_ALL },
- { "tosdiveax", REG_EAX, REG_ALL },
- { "tosmula0", REG_AX, REG_ALL },
- { "tosmulax", REG_AX, REG_ALL },
- { "tosmuleax", REG_EAX, REG_ALL },
- { "tosshreax", REG_EAX, REG_EAXY | REG_PTR1 | REG_PTR2 },
- { "tosumula0", REG_AX, REG_ALL },
+ { "tosicmp0", REG_A, REG_AXY | REG_SREG },
+ { "toslcmp", REG_EAX, REG_A | REG_Y | REG_PTR1 },
+ { "tosle00", REG_NONE, REG_AXY | REG_SREG },
+ { "toslea0", REG_A, REG_AXY | REG_SREG },
+ { "tosleax", REG_AX, REG_AXY | REG_SREG },
+ { "tosleeax", REG_EAX, REG_AXY | REG_PTR1 },
+ { "toslt00", REG_NONE, REG_AXY | REG_SREG },
+ { "toslta0", REG_A, REG_AXY | REG_SREG },
+ { "tosltax", REG_AX, REG_AXY | REG_SREG },
+ { "toslteax", REG_EAX, REG_AXY | REG_PTR1 },
+ { "tosmod0ax", REG_AX, REG_ALL },
+ { "tosmodeax", REG_EAX, REG_ALL },
+ { "tosmul0ax", REG_AX, REG_ALL },
+ { "tosmula0", REG_A, REG_ALL },
+ { "tosmulax", REG_AX, REG_ALL },
+ { "tosmuleax", REG_EAX, REG_ALL },
+ { "tosne00", REG_NONE, REG_AXY | REG_SREG },
+ { "tosnea0", REG_A, REG_AXY | REG_SREG },
+ { "tosneax", REG_AX, REG_AXY | REG_SREG },
+ { "tosneeax", REG_EAX, REG_AXY | REG_PTR1 },
+ { "tosor0ax", REG_AX, REG_EAX | REG_TMP1 },
+ { "tosora0", REG_A, REG_AXY | REG_TMP1 },
+ { "tosorax", REG_AX, REG_AXY | REG_TMP1 },
+ { "tosoreax", REG_EAX, REG_EAX | REG_TMP1 },
+ { "tosrsub0ax", REG_AX, REG_EAX | REG_TMP1 },
+ { "tosrsuba0", REG_A, REG_AX | REG_TMP1 },
+ { "tosrsubax", REG_AX, REG_AX | REG_TMP1 },
+ { "tosrsubeax", REG_EAX, REG_EAX | REG_TMP1 },
+ { "tosshlax", REG_A, REG_AXY | REG_TMP1 },
+ { "tosshleax", REG_A, REG_EAXY | REG_TMP1 },
+ { "tosshrax", REG_A, REG_AXY | REG_TMP1 },
+ { "tosshreax", REG_A, REG_EAXY | REG_TMP1 },
+ { "tossub0ax", REG_AX, REG_EAXY },
+ { "tossuba0", REG_A, REG_AXY },
+ { "tossubax", REG_AX, REG_AXY },
+ { "tossubeax", REG_EAX, REG_EAXY },
+ { "tosudiv0ax", REG_AX, REG_ALL & ~REG_SAVE },
+ { "tosudiva0", REG_A, REG_EAXY | REG_PTR1 }, /* also ptr4 */
+ { "tosudivax", REG_AX, REG_EAXY | REG_PTR1 }, /* also ptr4 */
+ { "tosudiveax", REG_EAX, REG_ALL & ~REG_SAVE },
+ { "tosuge00", REG_NONE, REG_AXY | REG_SREG },
+ { "tosugea0", REG_A, REG_AXY | REG_SREG },
+ { "tosugeax", REG_AX, REG_AXY | REG_SREG },
+ { "tosugeeax", REG_EAX, REG_AXY | REG_PTR1 },
+ { "tosugt00", REG_NONE, REG_AXY | REG_SREG },
+ { "tosugta0", REG_A, REG_AXY | REG_SREG },
+ { "tosugtax", REG_AX, REG_AXY | REG_SREG },
+ { "tosugteax", REG_EAX, REG_AXY | REG_PTR1 },
+ { "tosule00", REG_NONE, REG_AXY | REG_SREG },
+ { "tosulea0", REG_A, REG_AXY | REG_SREG },
+ { "tosuleax", REG_AX, REG_AXY | REG_SREG },
+ { "tosuleeax", REG_EAX, REG_AXY | REG_PTR1 },
+ { "tosult00", REG_NONE, REG_AXY | REG_SREG },
+ { "tosulta0", REG_A, REG_AXY | REG_SREG },
+ { "tosultax", REG_AX, REG_AXY | REG_SREG },
+ { "tosulteax", REG_EAX, REG_AXY | REG_PTR1 },
+ { "tosumod0ax", REG_AX, REG_ALL & ~REG_SAVE },
+ { "tosumoda0", REG_A, REG_EAXY | REG_PTR1 }, /* also ptr4 */
+ { "tosumodax", REG_AX, REG_EAXY | REG_PTR1 }, /* also ptr4 */
+ { "tosumodeax", REG_EAX, REG_ALL & ~REG_SAVE },
+ { "tosumul0ax", REG_AX, REG_ALL },
+ { "tosumula0", REG_A, REG_ALL },
{ "tosumulax", REG_AX, REG_ALL },
{ "tosumuleax", REG_EAX, REG_ALL },
+ { "tosxor0ax", REG_AX, REG_EAX | REG_TMP1 },
+ { "tosxora0", REG_A, REG_AX | REG_TMP1 },
+ { "tosxorax", REG_AX, REG_AX | REG_TMP1 },
+ { "tosxoreax", REG_EAX, REG_EAX | REG_TMP1 },
+ { "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 */
- unsigned short RegInfo; /* Register info for this symbol */
-};
static const ZPInfo ZPInfoTable[] = {
- { 4, "ptr1", REG_PTR1 },
- { 4, "ptr2", REG_PTR2 },
- { 4, "ptr3", REG_PTR3 },
- { 4, "ptr4", REG_PTR4 },
- { 7, "regbank", REG_BANK },
- { 7, "regsave", REG_SAVE },
- { 2, "sp", REG_SP },
- { 4, "sreg", REG_SREG },
- { 4, "tmp1", REG_TMP1 },
- { 4, "tmp2", REG_TMP2 },
- { 4, "tmp3", REG_TMP3 },
- { 4, "tmp4", REG_TMP4 },
+ { 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 */
/*****************************************************************************/
/* Did we find it in the top level table? */
if (E && IsTypeFunc (E->Type)) {
+ FuncDesc* D = E->V.F.Func;
+
/* 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,
* it will use the Y register (the parameter size is passed here).
* In all other cases, no registers are used. However, we assume
* that any function will destroy all registers.
*/
- FuncDesc* D = E->V.F.Func;
- if ((D->Flags & FD_FASTCALL) != 0 && D->ParamCount > 0) {
+ if (IsQualFastcall (E->Type) && D->ParamCount > 0) {
/* Will use registers depending on the last param */
- SymEntry* LastParam = D->SymTab->SymTail;
- if (SizeOf (LastParam->Type) == 1) {
+ unsigned LastParamSize = CheckedSizeOf (D->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 {
return;
}
+ } else if (IsDigit (Name[0]) || Name[0] == '$') {
+
+ /* A call to a numeric address. Assume that anything gets used and
+ * destroyed. This is not a real problem, since numeric addresses
+ * are used mostly in inline assembly anyway.
+ */
+ *Use = REG_ALL;
+ *Chg = REG_ALL;
+ return;
+
} 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);
/* Use the information we have */
*Use = Info->Use;
*Chg = Info->Chg;
- return;
- }
+ } else {
+ /* It's an internal function we have no information for. If in
+ * debug mode, output an additional warning, so we have a chance
+ * to fix it. Otherwise assume that the internal function will
+ * use and change all registers.
+ */
+ if (Debug) {
+ fprintf (stderr, "No info about internal function `%s'\n", Name);
+ }
+ *Use = REG_ALL;
+ *Chg = REG_ALL;
+ }
+ return;
}
- /* Function not found - assume all CPU registers are input, and all
+ /* Function not found - assume that the primary register is input, and all
* registers are changed
*/
- *Use = REG_AXY;
+ *Use = REG_EAXY;
*Chg = REG_ALL;
}
/* Do the compare. Be careful because of the length (Info may contain
* more than just the zeropage name).
*/
- 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;
+ 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;
}
- return Res;
}
-int IsZPName (const char* Name, unsigned short* RegInfo)
-/* Return true if the given name is a zero page symbol. If the RegInfo
- * pointer is not NULL, it is filled with the register info for the
- * zero page location found.
+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 */
- const ZPInfo* Info = bsearch (Name, ZPInfoTable, ZPInfoCount,
- sizeof(ZPInfo), CompareZPInfo);
-
- /* Did we find it? */
- if (Info) {
- /* Found, store register info if requested. */
- if (RegInfo) {
- *RegInfo = Info->RegInfo;
- }
- return 1;
- } else {
- /* Not found */
- return 0;
- }
+ return bsearch (Name, ZPInfoTable, ZPInfoCount,
+ sizeof(ZPInfo), CompareZPInfo);
}
-static unsigned GetRegInfo1 (CodeSeg* S,
- CodeEntry* E,
- int Index,
- Collection* Visited,
- unsigned Used,
- unsigned Unused);
-/* Recursively called subfunction for GetRegInfo. */
-
-
-
static unsigned GetRegInfo2 (CodeSeg* S,
CodeEntry* E,
int Index,
Collection* Visited,
unsigned Used,
- unsigned Unused)
+ unsigned Unused,
+ unsigned Wanted)
/* Recursively called subfunction for GetRegInfo. */
{
/* Follow the instruction flow recording register usage. */
/* Evaluate the used registers */
R = E->Use;
if (E->OPC == OP65_RTS ||
- ((E->Info & OF_BRA) != 0 && E->JumpTo == 0)) {
+ ((E->Info & OF_UBRA) != 0 && E->JumpTo == 0)) {
/* This instruction will leave the function */
R |= S->ExitRegs;
}
}
/* If we know about all registers now, bail out */
- if ((Used | Unused) == REG_AXY) {
+ if (((Used | Unused) & Wanted) == Wanted) {
break;
}
/* Unconditional jump */
E = E->JumpTo->Owner;
- Index = -1; /* Invalidate */
+ Index = -1; /* Invalidate */
} else {
/* Jump outside means we're done */
*/
} else if ((E->Info & OF_CBRA) != 0) {
+ /* Recursively determine register usage at the branch target */
+ unsigned U1;
+ unsigned U2;
+
if (E->JumpTo) {
- /* Recursively determine register usage at the branch target */
- unsigned U1;
- unsigned U2;
-
- U1 = GetRegInfo1 (S, E->JumpTo->Owner, -1, Visited, Used, Unused);
- if (U1 == REG_AXY) {
- /* All registers used, no need for second call */
- return REG_AXY;
- }
- if (Index < 0) {
- Index = CS_GetEntryIndex (S, E);
- }
- if ((E = CS_GetEntry (S, ++Index)) == 0) {
- Internal ("GetRegInfo2: No next entry!");
- }
- U2 = GetRegInfo1 (S, E, Index, Visited, Used, Unused);
- return U1 | U2; /* Used in any of the branches */
+ /* Jump to internal label */
+ U1 = GetRegInfo2 (S, E->JumpTo->Owner, -1, Visited, Used, Unused, Wanted);
- } else {
- /* Jump to global symbol */
- break;
- }
+ } else {
+
+ /* Jump to external label. This will effectively exit the
+ * function, so we use the exitregs information here.
+ */
+ U1 = S->ExitRegs;
+
+ }
+
+ /* Get the next entry */
+ if (Index < 0) {
+ Index = CS_GetEntryIndex (S, E);
+ }
+ if ((E = CS_GetEntry (S, ++Index)) == 0) {
+ Internal ("GetRegInfo2: No next entry!");
+ }
+
+ /* Follow flow if branch not taken */
+ U2 = GetRegInfo2 (S, E, Index, Visited, Used, Unused, Wanted);
+
+ /* Registers are used if they're use in any of the branches */
+ return U1 | U2;
} else {
int Index,
Collection* Visited,
unsigned Used,
- unsigned Unused)
+ 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 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);
-unsigned 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.
*/
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);
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;
}
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;
}
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_PTR1_LO) != 0) {
+ return (RC == 0 || RC->Ptr1Lo >= 0)? REG_PTR1_LO : REG_NONE;
+ } else if ((Use & REG_PTR1_HI) != 0) {
+ return (RC == 0 || RC->Ptr1Hi >= 0)? REG_PTR1_HI : 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;
+ }
+}
+