/* -*- c++ -*- */ /* * Copyright © 2010 Intel Corporation * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice (including the next * paragraph) shall be included in all copies or substantial portions of the * Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER * DEALINGS IN THE SOFTWARE. */ #include <assert.h> #include <stdio.h> #include <math.h> #include "s_expression.h" s_symbol::s_symbol(const char *str, size_t n) { /* Assume the given string is already nul-terminated and in memory that * will live as long as this node. */ assert(str[n] == '\0'); this->str = str; } s_list::s_list() { } static void skip_whitespace(const char *&src, char *&symbol_buffer) { size_t n = strspn(src, " \v\t\r\n"); src += n; symbol_buffer += n; /* Also skip Scheme-style comments: semi-colon 'til end of line */ if (src[0] == ';') { n = strcspn(src, "\n"); src += n; symbol_buffer += n; skip_whitespace(src, symbol_buffer); } } static s_expression * read_atom(void *ctx, const char *&src, char *&symbol_buffer) { s_expression *expr = NULL; skip_whitespace(src, symbol_buffer); size_t n = strcspn(src, "( \v\t\r\n);"); if (n == 0) return NULL; // no atom // Check for the special symbol '+INF', which means +Infinity. Note: C99 // requires strtof to parse '+INF' as +Infinity, but we still support some // non-C99-compliant compilers (e.g. MSVC). if (n == 4 && strncmp(src, "+INF", 4) == 0) { expr = new(ctx) s_float(INFINITY); } else { // Check if the atom is a number. char *float_end = NULL; float f = _mesa_strtof(src, &float_end); if (float_end != src) { char *int_end = NULL; int i = strtol(src, &int_end, 10); // If strtof matched more characters, it must have a decimal part if (float_end > int_end) expr = new(ctx) s_float(f); else expr = new(ctx) s_int(i); } else { // Not a number; return a symbol. symbol_buffer[n] = '\0'; expr = new(ctx) s_symbol(symbol_buffer, n); } } src += n; symbol_buffer += n; return expr; } static s_expression * __read_expression(void *ctx, const char *&src, char *&symbol_buffer) { s_expression *atom = read_atom(ctx, src, symbol_buffer); if (atom != NULL) return atom; skip_whitespace(src, symbol_buffer); if (src[0] == '(') { ++src; ++symbol_buffer; s_list *list = new(ctx) s_list; s_expression *expr; while ((expr = __read_expression(ctx, src, symbol_buffer)) != NULL) { list->subexpressions.push_tail(expr); } skip_whitespace(src, symbol_buffer); if (src[0] != ')') { printf("Unclosed expression (check your parenthesis).\n"); return NULL; } ++src; ++symbol_buffer; return list; } return NULL; } s_expression * s_expression::read_expression(void *ctx, const char *&src) { assert(src != NULL); /* When we encounter a Symbol, we need to save a nul-terminated copy of * the string. However, ralloc_strndup'ing every individual Symbol is * extremely expensive. We could avoid this by simply overwriting the * next character (guaranteed to be whitespace, parens, or semicolon) with * a nul-byte. But overwriting non-whitespace would mess up parsing. * * So, just copy the whole buffer ahead of time. Walk both, leaving the * original source string unmodified, and altering the copy to contain the * necessary nul-bytes whenever we encounter a symbol. */ char *symbol_buffer = ralloc_strdup(ctx, src); return __read_expression(ctx, src, symbol_buffer); } void s_int::print() { printf("%d", this->val); } void s_float::print() { printf("%f", this->val); } void s_symbol::print() { printf("%s", this->str); } void s_list::print() { printf("("); foreach_in_list(s_expression, expr, &this->subexpressions) { expr->print(); if (!expr->next->is_tail_sentinel()) printf(" "); } printf(")"); } // -------------------------------------------------- bool s_pattern::match(s_expression *expr) { switch (type) { case EXPR: *p_expr = expr; break; case LIST: if (expr->is_list()) *p_list = (s_list *) expr; break; case SYMBOL: if (expr->is_symbol()) *p_symbol = (s_symbol *) expr; break; case NUMBER: if (expr->is_number()) *p_number = (s_number *) expr; break; case INT: if (expr->is_int()) *p_int = (s_int *) expr; break; case STRING: s_symbol *sym = SX_AS_SYMBOL(expr); if (sym != NULL && strcmp(sym->value(), literal) == 0) return true; return false; }; return *p_expr == expr; } bool s_match(s_expression *top, unsigned n, s_pattern *pattern, bool partial) { s_list *list = SX_AS_LIST(top); if (list == NULL) return false; unsigned i = 0; foreach_in_list(s_expression, expr, &list->subexpressions) { if (i >= n) return partial; /* More actual items than the pattern expected */ if (expr == NULL || !pattern[i].match(expr)) return false; i++; } if (i < n) return false; /* Less actual items than the pattern expected */ return true; }