#include "sect.h"
#include "mark.h"
#include "macro.h"
-#include "risca.h"
+#include "riscasm.h"
#include "direct.h"
#include "version.h"
#include "debug.h"
int list_fd; // File to write listing to
int regbank; // RISC register bank
int segpadsize; // Segment padding size
-int in_main; // In main memory flag for GPUMAIN
int endian; // Host processor endianess
char * objfname; // Object filename pointer
char * firstfname; // First source filename
char * searchpath; // Search path for include files
char defname[] = "noname.o"; // Default output filename
-// Under Windows and UNIX malloc() is an expensive call, so for small amounts
-// of memory we allocate from a previously allocated buffer.
-
-#define A_AMOUNT 4096 // Amount to malloc() at a time
-#define A_THRESH 64 // Use malloc() for amounts >= A_THRESH
-
-static LONG a_amount; // Amount left at a_ptr
-static char * a_ptr; // Next free chunk
-LONG amemtot; // amem() total of requests
-
-// Qsort; The THRESHold below is the insertion sort threshold, and has been adjusted
-// for records of size 48 bytes.The MTHREShold is where we stop finding a better median.
-
-#define THRESH 4 // Threshold for insertion
-#define MTHRESH 6 // Threshold for median
-
-static int (*qcmp)(); // The comparison routine
-static int qsz; // Size of each record
-static int thresh; // THRESHold in chars
-static int mthresh; // MTHRESHold in chars
-
-
-//
-// qst: Do a quicksort. First, find the median element, and put that one in the
-// first place as the discriminator. (This "median" is just the median of the
-// first, last and middle elements). (Using this median instead of the first
-// element is a big win). Then, the usual partitioning/swapping, followed by
-// moving the discriminator into the right place. Then, figure out the sizes of
-// the two partions, do the smaller one recursively and the larger one via a
-// repeat of this code. Stopping when there are less than THRESH elements in a
-// partition and cleaning up with an insertion sort (in our caller) is a huge
-// win. All data swaps are done in-line, which is space-losing but time-saving.
-// (And there are only three places where this is done).
-//
-static int qst(char * base, char * max)
-{
- char c, * i, * j, * jj;
- int ii;
- char * mid, * tmp;
- long lo, hi;
-
- /*
- * At the top here, lo is the number of characters of elements in the
- * current partition. (Which should be max - base).
- * Find the median of the first, last, and middle element and make
- * that the middle element. Set j to largest of first and middle.
- * If max is larger than that guy, then it's that guy, else compare
- * max with loser of first and take larger. Things are set up to
- * prefer the middle, then the first in case of ties.
- */
- lo = max - base; /* number of elements as chars */
-
- do
- {
- mid = i = base + qsz * ((lo / qsz) >> 1);
-
- if (lo >= mthresh)
- {
- j = (qcmp((jj = base), i) > 0 ? jj : i);
-
- if (qcmp(j, (tmp = max - qsz)) > 0)
- {
- /* switch to first loser */
- j = (j == jj ? i : jj);
-
- if (qcmp(j, tmp) < 0)
- j = tmp;
- }
-
- if (j != i)
- {
- ii = qsz;
-
- do
- {
- c = *i;
- *i++ = *j;
- *j++ = c;
- }
- while (--ii);
- }
- }
-
- /*
- * Semi-standard quicksort partitioning/swapping
- */
- for(i=base, j=max-qsz; ;)
- {
- while (i < mid && qcmp(i, mid) <= 0)
- i += qsz;
-
- while (j > mid)
- {
- if (qcmp(mid, j) <= 0)
- {
- j -= qsz;
- continue;
- }
-
- tmp = i + qsz; /* value of i after swap */
-
- if (i == mid)
- {
- /* j <-> mid, new mid is j */
- mid = jj = j;
- }
- else
- {
- /* i <-> j */
- jj = j;
- j -= qsz;
- }
-
- goto swap;
- }
-
- if (i == mid)
- {
- break;
- }
- else
- {
- /* i <-> mid, new mid is i */
- jj = mid;
- tmp = mid = i; /* value of i after swap */
- j -= qsz;
- }
-swap:
- ii = qsz;
-
- do
- {
- c = *i;
- *i++ = *jj;
- *jj++ = c;
- }
- while (--ii);
-
- i = tmp;
- }
-
- /*
- * Look at sizes of the two partitions, do the smaller
- * one first by recursion, then do the larger one by
- * making sure lo is its size, base and max are update
- * correctly, and branching back. But only repeat
- * (recursively or by branching) if the partition is
- * of at least size THRESH.
- */
- i = (j = mid) + qsz;
-
- if ((lo = j - base) <= (hi = max - i))
- {
- if (lo >= thresh)
- qst(base, j);
-
- base = i;
- lo = hi;
- }
- else
- {
- if (hi >= thresh)
- qst(i, max);
-
- max = j;
- }
- }
- while (lo >= thresh);
-
- return 0;
-}
-
-
-/*
- * qsort:
- * First, set up some global parameters for qst to share. Then, quicksort
- * with qst(), and then a cleanup insertion sort ourselves. Sound simple?
- * It's not...
- */
-int rmac_qsort(char * base, int n, int size, int (*compar)())
-{
- register char c, * i, * j, * lo, * hi;
- char * min, * max;
-
- if (n <= 1)
- return 0;
-
- qsz = size;
- qcmp = compar;
- thresh = qsz * THRESH;
- mthresh = qsz * MTHRESH;
- max = base + n * qsz;
-
- if (n >= THRESH)
- {
- qst(base, max);
- hi = base + thresh;
- }
- else
- {
- hi = max;
- }
-
- /*
- * First put smallest element, which must be in the first THRESH, in
- * the first position as a sentinel. This is done just by searching
- * the first THRESH elements (or the first n if n < THRESH), finding
- * the min, and swapping it into the first position.
- */
- for(j=lo=base; (lo+=qsz)<hi;)
- {
- if (qcmp(j, lo) > 0)
- j = lo;
- }
-
- if (j != base)
- {
- /* swap j into place */
- for(i=base, hi=base+qsz; i<hi;)
- {
- c = *j;
- *j++ = *i;
- *i++ = c;
- }
- }
-
- /*
- * With our sentinel in place, we now run the following hyper-fast
- * insertion sort. For each remaining element, min, from [1] to [n-1],
- * set hi to the index of the element AFTER which this one goes.
- * Then, do the standard insertion sort shift on a character at a time
- * basis for each element in the frob.
- */
- for(min=base; (hi=min+=qsz)<max;)
- {
- while (qcmp(hi -= qsz, min) > 0)
- /* void */;
-
- if ((hi += qsz) != min)
- {
- for(lo=min+qsz; --lo>=min;)
- {
- c = *lo;
-
- for(i=j=lo; (j-=qsz)>=hi; i=j)
- *i = *j;
-
- *i = c;
- }
- }
- }
-
- return 0;
-}
-
-
-//
-// Allocate memory; Panic and Quit if we Run Out
-//
-char * amem(LONG amount)
-{
- char * p;
-
- if (amount & 1) // Keep word alignment
- ++amount;
-
- if (amount < A_THRESH)
- { // Honor *small* request
- if (a_amount < amount)
- {
- a_ptr = amem(A_AMOUNT);
- a_amount = A_AMOUNT;
- }
-
- p = a_ptr;
- a_ptr += amount;
- a_amount -= amount;
- }
- else
- {
- amemtot += amount; // Bump total alloc
- p = (char *)malloc(amount); // Get memory from malloc
-
- if ((LONG)p == (LONG)NULL)
- fatal("memory exhausted");
-
- memset(p, 0, amount);
- }
-
- return p;
-}
-
//
// Copy stuff around, return pointer to dest+count+1 (doesn't handle overlap)
//
void display_help(void)
{
- printf("Usage:\n");
- printf(" %s [options] srcfile\n", cmdlnexec);
- printf("\n");
- printf("Options:\n");
- printf(" -? or -h display usage information\n");
- printf(" -dsymbol[=value] define symbol\n");
- printf(" -e[errorfile] send error messages to file, not stdout\n");
- printf(" -f[format] output object file format\n");
- printf(" b: BSD (use this for Jaguar)\n");
- printf(" -i[path] directory to search for include files\n");
- printf(" -l[filename] create an output listing file\n");
- printf(" -o file output file name\n");
- printf(" -r[size] pad segments to boundary size specified\n");
- printf(" w: word (2 bytes, default alignment)\n");
- printf(" l: long (4 bytes)\n");
- printf(" p: phrase (8 bytes)\n");
- printf(" d: double phrase (16 bytes)\n");
- printf(" q: quad phrase (32 bytes)\n");
- printf(" -s warn about possible short branches\n");
- printf(" -u force referenced and undefined symbols global\n");
- printf(" -v set verbose mode\n");
- printf(" -y[pagelen] set page line length (default: 61)\n");
- printf("\n");
+ printf("Usage:\n"
+ " %s [options] srcfile\n"
+ "\n"
+ "Options:\n"
+ " -? or -h Display usage information\n"
+ " -dsymbol[=value] Define symbol\n"
+ " -e[errorfile] Send error messages to file, not stdout\n"
+ " -f[format] Output object file format\n"
+ " b: BSD (use this for Jaguar)\n"
+ " -i[path] Directory to search for include files\n"
+ " -l[filename] Create an output listing file\n"
+ " -o file Output file name\n"
+ " -r[size] Pad segments to boundary size specified\n"
+ " w: word (2 bytes, default alignment)\n"
+ " l: long (4 bytes)\n"
+ " p: phrase (8 bytes)\n"
+ " d: double phrase (16 bytes)\n"
+ " q: quad phrase (32 bytes)\n"
+ " -s Warn about possible short branches\n"
+ " -u Force referenced and undefined symbols global\n"
+ " -v Set verbose mode\n"
+ " -y[pagelen] Set page line length (default: 61)\n"
+ "\n", cmdlnexec);
}
//
void display_version(void)
{
- printf("\nReboot's Macro Assembler for Atari Jaguar\n");
- printf("Copyright (C) 199x Landon Dyer, 2011 Reboot\n");
- printf("V%01i.%01i.%01i %s (%s)\n\n", MAJOR, MINOR, PATCH, __DATE__, PLATFORM);
+ printf("\nReboot's Macro Assembler for Atari Jaguar\n"
+ "Copyright (C) 199x Landon Dyer, 2011 Reboot\n"
+ "V%01i.%01i.%01i %s (%s)\n\n", MAJOR, MINOR, PATCH, __DATE__, PLATFORM);
}
regbank = BANK_N; // No RISC register bank specified
orgactive = 0; // Not in RISC org section
orgwarning = 0; // No ORG warning issued
- a_amount = 0;
segpadsize = 2; // Initialise segment padding size
- in_main = 0;
// Initialise modules
- init_sym(); // Symbol table
- init_token(); // Tokenizer
- init_procln(); // Line processor
- init_expr(); // Expression analyzer
- init_sect(); // Section manager / code generator
- init_mark(); // Mark tape-recorder
- init_macro(); // Macro processor
- init_list(); // Listing generator
+ InitSymbolTable(); // Symbol table
+ InitTokenizer(); // Tokenizer
+ InitLineProcessor(); // Line processor
+ InitExpression(); // Expression analyzer
+ InitSection(); // Section manager / code generator
+ InitMark(); // Mark tape-recorder
+ InitMacro(); // Macro processor
+ InitListing(); // Listing generator
// Process command line arguments and assemble source files
- for(argno = 0; argno < argc; ++argno)
+ for(argno=0; argno<argc; ++argno)
{
if (*argv[argno] == '-')
{
if (argv[argno][2] == EOS)
{
printf("-d: empty symbol\n");
- ++errcnt;
+ errcnt++;
return errcnt;
}
if (sy == NULL)
{
- sy = newsym(argv[argno] + 2, LABEL, 0);
+ sy = NewSymbol(argv[argno] + 2, LABEL, 0);
sy->svalue = 0;
}
sy->sattr = DEFINED | EQUATED | ABS;
-
+#if 0
if (*s)
sy->svalue = (VALUE)atoi(s);
else
sy->svalue = 0;
-
+#else
+ sy->svalue = (*s ? (VALUE)atoi(s) : 0);
+#endif
break;
case 'e': // Redirect error message output
case 'E':
break;
default:
printf("-f: unknown object format specified\n");
- ++errcnt;
+ errcnt++;
return errcnt;
}
break;
list_fname = argv[argno] + 2;
listing = 1;
list_flag = 1;
- ++lnsave;
+ lnsave++;
break;
case 'o': // Direct object file output
case 'O':
if (++argno >= argc)
{
printf("Missing argument to -o");
- ++errcnt;
+ errcnt++;
return errcnt;
}
objfname = argv[argno];
firstfname = defname;
include(0, "(stdin)");
- assemble();
+ Assemble();
break;
case 'h': // Display command line usage
case 'H':
case '?':
display_version();
display_help();
- ++errcnt;
+ errcnt++;
break;
default:
display_version();
printf("Unknown switch: %s\n\n", argv[argno]);
display_help();
- ++errcnt;
+ errcnt++;
break;
}
}
if (fd < 0)
{
printf("Cannot open: %s\n", fnbuf);
- ++errcnt;
+ errcnt++;
continue;
}
include(fd, fnbuf);
- assemble();
+ Assemble();
}
}
// (`lo68' format, extended (postfix) format....)
// (2) generate the output file image and symbol table;
// (3) generate relocation information from left-over fixups.
- fixups(); // Do all fixups
- stopmark(); // Stop mark tape-recorder
+ ResolveAllFixups(); // Do all fixups
+ stopmark(); // Stop mark tape-recorder
if (errcnt == 0)
{
//
int main(int argc, char ** argv)
{
- int status;
- int i;
-
perm_verb_flag = 0; // Clobber "permanent" verbose flag
cmdlnexec = argv[0]; // Obtain executable name
endian = get_endianess(); // Get processor endianess
- for(i=0; i<MAXFWDJUMPS; i++)
- fwdjump[i] = 0;
-
- // Full command line passed
+ // If commands were passed in, process them
if (argc > 1)
{
- status = process(argc - 1, argv + 1);
- }
- else
- {
- display_version();
- display_help();
+ return process(argc - 1, argv + 1);
}
- return status;
+ display_version();
+ display_help();
+
+ return 0;
}