diff options
author | Andy Chu <andychu@google.com> | 2016-03-15 13:42:30 -0700 |
---|---|---|
committer | Rob Landley <rob@landley.net> | 2016-03-16 11:59:56 -0500 |
commit | 14c91c1ebd68daacce9794cf8894dcfea68efd7b (patch) | |
tree | 052b6e72b9e3fa926e70a5f01690863836a8d2c6 /toys/pending/expr.c | |
parent | 2665cd0cf0d1116fae397d5b598a5ae1bd055afa (diff) | |
download | toybox-14c91c1ebd68daacce9794cf8894dcfea68efd7b.tar.gz |
Fix the operator precedence in expr.
expr now uses the precedence table specified by POSIX, implemented using
the "precedence climbing" algorithm. See the references at the top of
eval_expr().
This fixes 3 of 4 failing tests.
I also added more tests for correct behavior and for syntax errors.
This includes a new test exposing a segfault, related to type coercion.
Diffstat (limited to 'toys/pending/expr.c')
-rw-r--r-- | toys/pending/expr.c | 135 |
1 files changed, 73 insertions, 62 deletions
diff --git a/toys/pending/expr.c b/toys/pending/expr.c index 763ad02d..ac7edace 100644 --- a/toys/pending/expr.c +++ b/toys/pending/expr.c @@ -45,9 +45,8 @@ config EXPR #define FOR_expr #include "toys.h" - GLOBALS( - int argidx; + char* tok; // current token, not on the stack since recursive calls mutate it ) // Scalar value. @@ -87,6 +86,7 @@ static void re(struct value *lhs, struct value *rhs) regmatch_t rm[2]; xregcomp(&rp, rhs->s, 0); + // BUG: lhs->s is NULL when it looks like an integer, causing a segfault. if (!regexec(&rp, lhs->s, 2, rm, 0) && rm[0].rm_so == 0) { if (rp.re_nsub > 0 && rm[1].rm_so >= 0) lhs->s = xmprintf("%.*s", rm[1].rm_eo - rm[1].rm_so, lhs->s+rm[1].rm_so); @@ -183,91 +183,102 @@ static void or(struct value *lhs, struct value *rhs) if (is_zero(lhs)) *lhs = *rhs; } -static void get_value(struct value *v) +// Converts an arg string to a value struct. Assumes arg != NULL. +static void parse_value(char* arg, struct value *v) { - char *endp, *arg; - - if (TT.argidx == toys.optc) { - v->i = 0; - v->s = ""; // signal end of expression - return; - } - -// can't happen, the increment is after the == test -// if (TT.argidx >= toys.optc) error_exit("syntax error"); - - arg = toys.optargs[TT.argidx++]; - + char *endp; v->i = strtoll(arg, &endp, 10); + // if non-NULL, there's still stuff left, and it's a string. Otherwise no + // string. v->s = *endp ? arg : NULL; } -// check if v matches a token, and consume it if so -static int match(struct value *v, char *tok) -{ - if (v->s && !strcmp(v->s, tok)) { - get_value(v); - return 1; - } - - return 0; +void syntax_error(char *msg, ...) { + if (0) { // detailed message for debugging. TODO: add CFG_ var to enable + va_list va; + va_start(va, msg); + verror_msg(msg, 0, va); + va_end(va); + xexit(); + } else + error_exit("syntax error"); } -// operators in order of increasing precedence +// operators grouped by precedence static struct op { char *tok; - + char prec; // calculate "lhs op rhs" (e.g. lhs + rhs) and store result in lhs void (*calc)(struct value *lhs, struct value *rhs); -} ops[] = { - {"|", or }, {"&", and }, {"=", eq }, {"==", eq }, {">", gt }, - {">=", gte }, {"<", lt }, {"<=", lte }, {"!=", ne }, {"+", add }, - {"-", sub }, {"*", mul }, {"/", divi}, {"%", mod }, {":", re }, - {"(", NULL}, // special case - must be last +} OPS[] = { + {"|", 1, or }, + {"&", 2, and }, + {"=", 3, eq }, {"==", 3, eq }, {">", 3, gt }, {">=", 3, gte }, + {"<", 3, lt }, {"<=", 3, lte }, {"!=", 3, ne }, + {"+", 4, add }, {"-", 4, sub }, + {"*", 5, mul }, {"/", 5, divi }, {"%", 5, mod }, + {":", 6, re }, + {"", 0, NULL}, // sentinel }; -// "|,&,= ==> >=< <= !=,+-,*/%,:" +// Point TT.tok at the next token. It's NULL when there are no more tokens. +void advance() { + TT.tok = *toys.optargs++; +} -static void parse_op(struct value *lhs, struct value *tok, struct op *op) +// Evalute a compound expression, setting 'ret'. +// +// This function uses the recursive "Precedence Climbing" algorithm: +// +// Clarke, Keith. "The top-down parsing of expressions." University of London. +// Queen Mary College. Department of Computer Science and Statistics, 1986. +// +// http://www.antlr.org/papers/Clarke-expr-parsing-1986.pdf +// +// Nice explanation and Python implementation: +// http://eli.thegreenplace.net/2012/08/02/parsing-expressions-by-precedence-climbing +static void eval_expr(struct value *ret, int min_prec) { - if (!op) op = ops; - - // special case parsing for parentheses - if (*op->tok == '(') { - if (match(tok, "(")) { - parse_op(lhs, tok, 0); - if (!match(tok, ")")) error_exit("syntax error"); // missing closing paren - } else { - // tok is a string or integer - return it and get the next token - *lhs = *tok; - get_value(tok); - } - - return; + if (!TT.tok) syntax_error("Unexpected end of input"); + + // Evaluate LHS atom, setting 'ret'. + if (!strcmp(TT.tok, "(")) { // parenthesized expression + advance(); // consume ( + eval_expr(ret, 1); // We're inside ( ), so start with min_prec = 1 + if (!TT.tok) syntax_error("Expected )"); + if (strcmp(TT.tok, ")")) syntax_error("Expected ) but got %s", TT.tok); + advance(); // consume ) + } else { // simple literal + parse_value(TT.tok, ret); + advance(); } - parse_op(lhs, tok, op + 1); - while (match(tok, op->tok)) { - struct value rhs; - parse_op(&rhs, tok, op + 1); - if (rhs.s && !*rhs.s) error_exit("syntax error"); // premature end of expression - op->calc(lhs, &rhs); + // Evaluate RHS and apply operator until precedence is too low. + struct value rhs; + while (TT.tok) { + struct op *o = OPS; + while (o->calc) { // Look up the precedence of operator TT.tok + if (!strcmp(TT.tok, o->tok)) break; + o++; + } + if (!o->calc) break; // Not an operator (extra input will fail later) + if (o->prec < min_prec) break; // Precedence too low, pop a stack frame + advance(); + + eval_expr(&rhs, o->prec + 1); // Evaluate RHS, with higher min precedence + o->calc(ret, &rhs); // Apply operator, setting 'ret'. } } void expr_main(void) { - struct value tok, ret = {0}; - + struct value ret = {0}; toys.exitval = 2; // if exiting early, indicate invalid expression - TT.argidx = 0; - - get_value(&tok); // warm up the parser with the initial value - parse_op(&ret, &tok, 0); + advance(); // initialize global token + eval_expr(&ret, 1); - // final token should be end of expression - if (!tok.s || *tok.s) error_exit("syntax error"); + if (TT.tok) syntax_error("Unexpected extra input '%s'\n", TT.tok); if (ret.s) printf("%s\n", ret.s); else printf("%lld\n", ret.i); |