mirror of
https://git.code.sf.net/p/quake/quakeforge
synced 2024-11-29 07:32:02 +00:00
68ca8c7016
According to enki (bivector community) when there are more than one null vector in a geometry, usually all vectors are null, and it was what to do with multiple null vectors that caused me to balk at using e0 for the null vector. However, using e0 for the null vector makes life much easier, especially as that's what most of the literature does. There are plenty of places, particularly in layout handling, that still need adjustment for the change, but things seem to work (minus duals, but they were broken in the first place, thus the discussion with enki).
472 lines
9.4 KiB
R
472 lines
9.4 KiB
R
#include <AutoreleasePool.h>
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#include <hash.h>
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#include <qfile.h>
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#include <script.h>
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#include <string.h>
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#include "algebra.h"
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#include "basisblade.h"
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#include "basisgroup.h"
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#include "metric.h"
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#include "multivector.h"
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#include "util.h"
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@static AutoreleasePool *autorelease_pool;
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@static void
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arp_start (void)
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{
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autorelease_pool = [[AutoreleasePool alloc] init];
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}
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@static void
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arp_end (void)
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{
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[autorelease_pool release];
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autorelease_pool = nil;
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}
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static void
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basic_test (void)
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{
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arp_start ();
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BasisBlade *a = [[BasisBlade basis:1] retain];
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BasisBlade *b = [[BasisBlade basis:2] retain];
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BasisBlade *c = [[BasisBlade basis:4] retain];
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BasisBlade *d = [[BasisBlade basis:8] retain];
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BasisBlade *blades[] = {a, b, c, d};
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static string names[] = {"a", "b", "c", "d"};
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// printf ("a: %@\n", a);
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// printf ("b: %@\n", b);
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// printf ("c: %@\n", c);
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// printf ("d: %@\n", d);
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arp_end ();
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#if 0
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arp_start ();
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for (int i = 0; i < 4; i++) {
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arp_end ();
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arp_start ();
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BasisBlade *vec = blades[i];
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printf ("%s: %@\n", names[i], vec);
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for (int j = 0; j < 4; j++) {
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BasisBlade *bvec = [vec outerProduct:blades[j]];
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if (![bvec scale]) {
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continue;
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}
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printf ("%s^%s: %@\n", names[i], names[j], bvec);
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for (int k = 0; k < 4; k++) {
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BasisBlade *tvec = [bvec outerProduct:blades[k]];
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if (![tvec scale]) {
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continue;
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}
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printf ("%s^%s^%s: %@\n", names[i], names[j], names[k],
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tvec);
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for (int l = 0; l < 4; l++) {
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BasisBlade *qvec = [tvec outerProduct:blades[l]];
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if (![qvec scale]) {
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continue;
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}
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printf ("%s^%s^%s^%s: %@\n",
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names[i], names[j], names[k], names[l],
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qvec);
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}
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}
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}
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}
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arp_end ();
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#endif
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arp_start ();
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Metric *m = [Metric R:3,0,1];
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BasisBlade *ad = [a geometricProduct:d metric:m];
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BasisBlade *prod = [ad geometricProduct:ad metric:m];
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printf ("%s%s %s%s: %@\n",
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names[0], names[3], names[0], names[3], prod);
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Algebra *alg = [Algebra R:3, 0, 1];
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double plane1_vals[4] = {1, 0, 0, 8};
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double plane2_vals[4] = {0, 1, 0, 8};
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double origin_vals[4] = {0, 0, 0, 1};
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MultiVector *plane1 = [alg group:0 values:plane1_vals];
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MultiVector *plane2 = [alg group:0 values:plane2_vals];
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MultiVector *origin = [alg group:3 values:origin_vals];
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MultiVector *line = [plane1 wedge:plane2];
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MultiVector *point = [[line dot:origin] product:[line reverse]];
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printf ("plane1:%@\nplane2:%@\nline:%@\norigin:%@\n", plane1, plane2, line, origin);
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printf ("point:%@\n", point);
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arp_end ();
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}
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typedef struct var_s {
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string name;
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MultiVector *value;
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} var_t;
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static hashtab_t *symtab;
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typedef enum {
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EOF, SEMI,
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VAR, EQUAL,
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ID, VALUE,
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OPENP, CLOSEP,
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OPENB, CLOSEB,
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OPENS, CLOSES,
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MUL, DIV, PLUS, MINUS,
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WEDGE, ANTIWEDGE, DOT,
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REVERSE, DUAL,
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} token_e;
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script_t script;
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string token_str;
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token_e lookahead = -1;
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typedef struct token_s {
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token_e id;
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union {
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MultiVector *value;
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string name;
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};
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} token_t;
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static token_t
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get_token ()
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{
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if (!Script_TokenAvailable (script, 1)) {
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return {EOF, nil};
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}
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Script_GetToken (script, 1);
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switch (token_str) {
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case "var": return {VAR, nil};
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case "=": return {EQUAL, nil};
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case ";": return {SEMI, nil};
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case "(": return {OPENP, nil};
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case ")": return {CLOSEP, nil};
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case "[": return {OPENB, nil};
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case "]": return {CLOSEB, nil};
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case "{": return {OPENS, nil};
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case "}": return {CLOSES, nil};
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case "*": return {MUL, nil};
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case "/": return {DIV, nil};
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case "+": return {PLUS, nil};
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case "-": return {MINUS, nil};
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case "^": return {WEDGE, nil};
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case "&": return {ANTIWEDGE, nil};
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case ".": return {DOT, nil};
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case "~": return {REVERSE, nil};
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case "!": return {DUAL, nil};
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}
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return {ID, .name = token_str };
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}
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static void
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syntax_error ()
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{
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obj_error (nil, 0, "syntax error before `%s': %d\n", token_str,
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Script_GetLine (script));
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}
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static int
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match (token_e token)
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{
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if (lookahead == -1) {
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lookahead = get_token ().id;
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}
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return token == lookahead;
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}
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static void
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advance ()
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{
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lookahead = get_token ().id;
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}
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static Algebra *algebra;
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static MultiVector *minus_one;
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static MultiVector *expression ();
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static int
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is_digit (string x)
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{
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return (x == "0" || x == "1" || x == "2" || x == "3" ||
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x == "4" || x == "5" || x == "6" || x == "7" ||
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x == "8" || x == "9");
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}
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static int
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is_number (string x)
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{
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return x == "." || is_digit (x);
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}
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static MultiVector *
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factor ()
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{
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MultiVector *vec;
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if (match (REVERSE)) {
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advance ();
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vec = [factor () reverse];
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} else if (match (DUAL)) {
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advance ();
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vec = [factor () dual];
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} else if (match (MINUS)) {
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advance ();
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vec = [minus_one product:factor ()];
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} else if (match (OPENP)) {
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advance ();
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vec = expression ();
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if (!match (CLOSEP)) {
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syntax_error ();
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}
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advance ();
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} else if (match (ID)) {
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if (is_digit (str_mid (token_str, 0, 1))) {
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string num_str = nil;
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string blade_str = nil;
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int pos = 0;
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while (is_number (str_mid (token_str, pos, pos + 1))) {
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pos++;
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}
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num_str = str_mid (token_str, 0, pos);
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if (str_mid (token_str, pos, pos + 1) == "e") {
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blade_str = str_mid (token_str, ++pos);
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}
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BasisBlade *blade = [BasisBlade basis:0];
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pos = 0;
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while (is_digit (str_mid (blade_str, pos, pos + 1))) {
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int x = str_char (blade_str, pos++) - '0';
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BasisBlade *new = [BasisBlade basis:1 << x];
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blade = [blade outerProduct:new];
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}
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double num = strtod (num_str, nil) * [blade scale];
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vec = [algebra ofGrade:[blade grade]];
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*[vec componentFor:blade] = num;
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} else {
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var_t *var = Hash_Find (symtab, token_str);
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if (!var) {
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syntax_error ();
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}
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vec = var.value;
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}
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advance ();
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} else {
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syntax_error ();
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vec = nil;
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}
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return vec;
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}
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static MultiVector *
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high_term ()
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{
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MultiVector *vec = nil;
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SEL op = nil;
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while (1) {
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if (vec) {
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vec = [vec performSelector:op withObject: factor()];
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} else {
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vec = factor ();
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}
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if (match (WEDGE)) {
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op = @selector(wedge:);
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advance ();
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} else if (match (DOT)) {
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op = @selector(dot:);
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advance ();
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} else {
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return vec;
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}
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}
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}
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static MultiVector *
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term ()
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{
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MultiVector *vec = nil;
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SEL op = nil;
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while (1) {
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if (vec) {
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vec = [vec performSelector:op withObject: high_term()];
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} else {
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vec = high_term ();
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}
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if (match (REVERSE) || match (DUAL) || match (OPENP) || match (ID)) {
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op = @selector(product:);
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} else if (match (DIV)) {
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op = @selector(divide:);
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advance ();
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} else {
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return vec;
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}
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}
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}
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static MultiVector *
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expression ()
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{
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MultiVector *vec = nil;
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SEL op = nil;
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while (1) {
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if (vec) {
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vec = [vec performSelector:op withObject: term()];
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} else {
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vec = term ();
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}
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if (match (PLUS)) {
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op = @selector(plus:);
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advance ();
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} else if (match (MINUS)) {
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op = @selector(minus:);
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advance ();
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} else {
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return vec;
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}
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}
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}
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static var_t *
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assignment ()
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{
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if (!match (ID) || is_digit (str_mid (token_str, 0, 1))) {
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printf ("%s\n", token_str);
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syntax_error ();
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}
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var_t *var = Hash_Find (symtab, token_str);
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if (!var) {
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syntax_error ();
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}
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advance ();
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if (!match (EQUAL)) {
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syntax_error ();
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}
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advance ();
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var.value = [expression () retain];
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return var;
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}
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static var_t *
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declaration ()
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{
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if (!match (ID) || is_digit (str_mid (token_str, 0, 1))) {
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syntax_error ();
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}
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if (Hash_Find (symtab, token_str)) {
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syntax_error ();
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}
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var_t *var = obj_malloc (sizeof (var_t));
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var.name = str_hold (str_unmutable (token_str));
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Hash_Add (symtab, var);
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assignment ();
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return var;
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}
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static int
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parse_script (string name, QFile file)
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{
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script = Script_New ();
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Script_SetSingle (script, "()[]{}/+-^&~=;!");
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token_str = Script_FromFile (script, name, file);
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while (!match (EOF)) {
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arp_end ();
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arp_start ();
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var_t *var;
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if (match (VAR)) {
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advance ();
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var = declaration ();
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printf ("var %s = %@\n", var.name, var.value);
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} else {
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var = assignment ();
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printf ("%s = %@\n", var.name, var.value);
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}
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advance ();
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}
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Script_Delete (script);
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return 1;
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}
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static string
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get_symtab_key (void *var, void *unused)
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{
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return ((var_t *) var).name;
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}
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static Algebra *
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parse_algebra (string spec)
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{
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ivec3 R = {};
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string s = spec;
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if (is_digit (str_mid (spec, 0, 1))) {
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for (int i = 0; i < 3; i++) {
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int end = 0;
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R[i] = strtol (s, &end, 0);
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string e = str_mid (s, end, end + 1);
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if (!e) {
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break;
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}
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if (e != ",") {
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goto bad_spec;
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}
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s = str_mid (s, end + 1);
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}
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if (!R[0] && !R[1] && !R[2]) {
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goto bad_spec;
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}
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return [Algebra R:R[0], R[1], R[2]];
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} else {
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}
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bad_spec:
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printf ("bad algebra spec: %s\n", spec);
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return nil;
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}
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int
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main (int argc, string *argv)
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{
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symtab = Hash_NewTable (127, get_symtab_key, nil, nil);
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if (argc < 2) {
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basic_test ();
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} else {
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arp_start ();
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algebra = [[Algebra PGA:3] retain];
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arp_end ();
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arp_start ();
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double m1 = -1;
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minus_one = [[algebra ofGrade:0 values:&m1] retain];
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arp_end ();
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arp_start ();
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for (int i = 1; i < argc; i++) {
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if (argv[i] == "-a") {
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Algebra *a = [parse_algebra (argv[++i]) retain];
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if (!a) {
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return 1;
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}
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[algebra release];
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algebra = a;
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[minus_one release];
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minus_one = [[algebra ofGrade:0 values:&m1] retain];
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continue;
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}
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QFile file = Qopen (argv[i], "rt");
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if (file) {
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arp_end ();
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arp_start ();
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printf ("Using algebra %@\n", algebra);
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int res = parse_script (argv[i], file);
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Qclose (file);
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if (!res) {
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return 1;
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}
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} else {
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printf ("%s: failed to open '%s'\n", argv[0], argv[i]);
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return 1;
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}
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}
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}
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return 0;
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}
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