/* Copyright (C) 1995,1996,1997,1999,2000,2001,2003, 2004, 2006, 2007 Free Software * Foundation, Inc. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #ifdef HAVE_CONFIG_H # include #endif #include #include #include #include "libguile/_scm.h" #include "libguile/chars.h" #include "libguile/eval.h" #include "libguile/unif.h" #include "libguile/keywords.h" #include "libguile/alist.h" #include "libguile/srcprop.h" #include "libguile/hashtab.h" #include "libguile/hash.h" #include "libguile/ports.h" #include "libguile/root.h" #include "libguile/strings.h" #include "libguile/strports.h" #include "libguile/vectors.h" #include "libguile/validate.h" #include "libguile/srfi-4.h" #include "libguile/srfi-13.h" #include "libguile/read.h" #include "libguile/private-options.h" SCM_GLOBAL_SYMBOL (scm_sym_dot, "."); SCM_SYMBOL (scm_keyword_prefix, "prefix"); scm_t_option scm_read_opts[] = { { SCM_OPTION_BOOLEAN, "copy", 0, "Copy source code expressions." }, { SCM_OPTION_BOOLEAN, "positions", 0, "Record positions of source code expressions." }, { SCM_OPTION_BOOLEAN, "case-insensitive", 0, "Convert symbols to lower case."}, { SCM_OPTION_SCM, "keywords", SCM_UNPACK (SCM_BOOL_F), "Style of keyword recognition: #f or 'prefix."}, #if SCM_ENABLE_ELISP { SCM_OPTION_BOOLEAN, "elisp-vectors", 0, "Support Elisp vector syntax, namely `[...]'."}, { SCM_OPTION_BOOLEAN, "elisp-strings", 0, "Support `\\(' and `\\)' in strings."}, #endif { 0, }, }; /* Give meaningful error messages for errors We use the format FILE:LINE:COL: MESSAGE This happened in .... This is not standard GNU format, but the test-suite likes the real message to be in front. */ void scm_i_input_error (char const *function, SCM port, const char *message, SCM arg) { SCM fn = (scm_is_string (SCM_FILENAME(port)) ? SCM_FILENAME(port) : scm_from_locale_string ("#")); SCM string_port = scm_open_output_string (); SCM string = SCM_EOL; scm_simple_format (string_port, scm_from_locale_string ("~A:~S:~S: ~A"), scm_list_4 (fn, scm_from_long (SCM_LINUM (port) + 1), scm_from_int (SCM_COL (port) + 1), scm_from_locale_string (message))); string = scm_get_output_string (string_port); scm_close_output_port (string_port); scm_error_scm (scm_from_locale_symbol ("read-error"), function? scm_from_locale_string (function) : SCM_BOOL_F, string, arg, SCM_BOOL_F); } SCM_DEFINE (scm_read_options, "read-options-interface", 0, 1, 0, (SCM setting), "Option interface for the read options. Instead of using\n" "this procedure directly, use the procedures @code{read-enable},\n" "@code{read-disable}, @code{read-set!} and @code{read-options}.") #define FUNC_NAME s_scm_read_options { SCM ans = scm_options (setting, scm_read_opts, FUNC_NAME); if (SCM_COPY_SOURCE_P) SCM_RECORD_POSITIONS_P = 1; return ans; } #undef FUNC_NAME /* An association list mapping extra hash characters to procedures. */ static SCM *scm_read_hash_procedures; /* Token readers. */ /* Size of the C buffer used to read symbols and numbers. */ #define READER_BUFFER_SIZE 128 /* Size of the C buffer used to read strings. */ #define READER_STRING_BUFFER_SIZE 512 /* The maximum size of Scheme character names. */ #define READER_CHAR_NAME_MAX_SIZE 50 /* `isblank' is only in C99. */ #define CHAR_IS_BLANK_(_chr) \ (((_chr) == ' ') || ((_chr) == '\t') || ((_chr) == '\n') \ || ((_chr) == '\f')) #ifdef MSDOS # define CHAR_IS_BLANK(_chr) \ ((CHAR_IS_BLANK_ (chr)) || ((_chr) == 26)) #else # define CHAR_IS_BLANK CHAR_IS_BLANK_ #endif /* R5RS one-character delimiters (see section 7.1.1, ``Lexical structure''). */ #define CHAR_IS_R5RS_DELIMITER(c) \ (CHAR_IS_BLANK (c) \ || (c == ')') || (c == '(') || (c == ';') || (c == '"')) #define CHAR_IS_DELIMITER CHAR_IS_R5RS_DELIMITER /* Exponent markers, as defined in section 7.1.1 of R5RS, ``Lexical Structure''. */ #define CHAR_IS_EXPONENT_MARKER(_chr) \ (((_chr) == 'e') || ((_chr) == 's') || ((_chr) == 'f') \ || ((_chr) == 'd') || ((_chr) == 'l')) /* An inlinable version of `scm_c_downcase ()'. */ #define CHAR_DOWNCASE(_chr) \ (((_chr) <= UCHAR_MAX) ? tolower (_chr) : (_chr)) /* Helper function similar to `scm_read_token ()'. Read from PORT until a whitespace is read. Return zero if the whole token could fit in BUF, non-zero otherwise. */ static inline int read_token (SCM port, char *buf, size_t buf_size, size_t *read) { *read = 0; while (*read < buf_size) { int chr; chr = scm_getc (port); chr = (SCM_CASE_INSENSITIVE_P ? CHAR_DOWNCASE (chr) : chr); if (chr == EOF) return 0; else if (CHAR_IS_DELIMITER (chr)) { scm_ungetc (chr, port); return 0; } else { *buf = (char) chr; buf++, (*read)++; } } return 1; } /* Skip whitespace from PORT and return the first non-whitespace character read. Raise an error on end-of-file. */ static int flush_ws (SCM port, const char *eoferr) { register int c; while (1) switch (c = scm_getc (port)) { case EOF: goteof: if (eoferr) { scm_i_input_error (eoferr, port, "end of file", SCM_EOL); } return c; case ';': lp: switch (c = scm_getc (port)) { case EOF: goto goteof; default: goto lp; case SCM_LINE_INCREMENTORS: break; } break; case SCM_LINE_INCREMENTORS: case SCM_SINGLE_SPACES: case '\t': break; default: return c; } return 0; } /* Token readers. */ static SCM scm_read_expression (SCM port); static SCM scm_read_sharp (int chr, SCM port); static SCM scm_get_hash_procedure (int c); static SCM recsexpr (SCM obj, long line, int column, SCM filename); static SCM scm_read_sexp (int chr, SCM port) #define FUNC_NAME "scm_i_lreadparen" { register int c; register SCM tmp; register SCM tl, ans = SCM_EOL; SCM tl2 = SCM_EOL, ans2 = SCM_EOL, copy = SCM_BOOL_F;; static const int terminating_char = ')'; /* Need to capture line and column numbers here. */ long line = SCM_LINUM (port); int column = SCM_COL (port) - 1; c = flush_ws (port, FUNC_NAME); if (terminating_char == c) return SCM_EOL; scm_ungetc (c, port); if (scm_is_eq (scm_sym_dot, (tmp = scm_read_expression (port)))) { ans = scm_read_expression (port); if (terminating_char != (c = flush_ws (port, FUNC_NAME))) scm_i_input_error (FUNC_NAME, port, "missing close paren", SCM_EOL); return ans; } /* Build the head of the list structure. */ ans = tl = scm_cons (tmp, SCM_EOL); if (SCM_COPY_SOURCE_P) ans2 = tl2 = scm_cons (scm_is_pair (tmp) ? copy : tmp, SCM_EOL); while (terminating_char != (c = flush_ws (port, FUNC_NAME))) { SCM new_tail; scm_ungetc (c, port); if (scm_is_eq (scm_sym_dot, (tmp = scm_read_expression (port)))) { SCM_SETCDR (tl, tmp = scm_read_expression (port)); if (SCM_COPY_SOURCE_P) SCM_SETCDR (tl2, scm_cons (scm_is_pair (tmp) ? copy : tmp, SCM_EOL)); c = flush_ws (port, FUNC_NAME); if (terminating_char != c) scm_i_input_error (FUNC_NAME, port, "in pair: missing close paren", SCM_EOL); goto exit; } new_tail = scm_cons (tmp, SCM_EOL); SCM_SETCDR (tl, new_tail); tl = new_tail; if (SCM_COPY_SOURCE_P) { SCM new_tail2 = scm_cons (scm_is_pair (tmp) ? copy : tmp, SCM_EOL); SCM_SETCDR (tl2, new_tail2); tl2 = new_tail2; } } exit: if (SCM_RECORD_POSITIONS_P) scm_whash_insert (scm_source_whash, ans, scm_make_srcprops (line, column, SCM_FILENAME (port), SCM_COPY_SOURCE_P ? ans2 : SCM_UNDEFINED, SCM_EOL)); return ans; } #undef FUNC_NAME static SCM scm_read_string (int chr, SCM port) #define FUNC_NAME "scm_lreadr" { /* For strings smaller than C_STR, this function creates only one Scheme object (the string returned). */ SCM str = SCM_BOOL_F; char c_str[READER_STRING_BUFFER_SIZE]; unsigned c_str_len = 0; int c; while ('"' != (c = scm_getc (port))) { if (c == EOF) str_eof: scm_i_input_error (FUNC_NAME, port, "end of file in string constant", SCM_EOL); if (c_str_len + 1 >= sizeof (c_str)) { /* Flush the C buffer onto a Scheme string. */ SCM addy; if (str == SCM_BOOL_F) str = scm_c_make_string (0, SCM_MAKE_CHAR ('X')); addy = scm_from_locale_stringn (c_str, c_str_len); str = scm_string_append_shared (scm_list_2 (str, addy)); c_str_len = 0; } if (c == '\\') switch (c = scm_getc (port)) { case EOF: goto str_eof; case '"': case '\\': break; #if SCM_ENABLE_ELISP case '(': case ')': if (SCM_ESCAPED_PARENS_P) break; goto bad_escaped; #endif case '\n': continue; case '0': c = '\0'; break; case 'f': c = '\f'; break; case 'n': c = '\n'; break; case 'r': c = '\r'; break; case 't': c = '\t'; break; case 'a': c = '\007'; break; case 'v': c = '\v'; break; case 'x': { int a, b; a = scm_getc (port); if (a == EOF) goto str_eof; b = scm_getc (port); if (b == EOF) goto str_eof; if ('0' <= a && a <= '9') a -= '0'; else if ('A' <= a && a <= 'F') a = a - 'A' + 10; else if ('a' <= a && a <= 'f') a = a - 'a' + 10; else goto bad_escaped; if ('0' <= b && b <= '9') b -= '0'; else if ('A' <= b && b <= 'F') b = b - 'A' + 10; else if ('a' <= b && b <= 'f') b = b - 'a' + 10; else goto bad_escaped; c = a * 16 + b; break; } default: bad_escaped: scm_i_input_error (FUNC_NAME, port, "illegal character in escape sequence: ~S", scm_list_1 (SCM_MAKE_CHAR (c))); } c_str[c_str_len++] = c; } if (c_str_len > 0) { SCM addy; addy = scm_from_locale_stringn (c_str, c_str_len); if (str == SCM_BOOL_F) str = addy; else str = scm_string_append_shared (scm_list_2 (str, addy)); } else str = (str == SCM_BOOL_F) ? scm_nullstr : str; return str; } #undef FUNC_NAME static SCM scm_read_number (int chr, SCM port) { SCM result, str = SCM_EOL; char buffer[READER_BUFFER_SIZE]; size_t read; int overflow = 0; scm_ungetc (chr, port); do { overflow = read_token (port, buffer, sizeof (buffer), &read); if ((overflow) || (scm_is_pair (str))) str = scm_cons (scm_from_locale_stringn (buffer, read), str); } while (overflow); if (scm_is_pair (str)) { /* The slow path. */ str = scm_string_concatenate (scm_reverse_x (str, SCM_EOL)); result = scm_string_to_number (str, SCM_UNDEFINED); if (!scm_is_true (result)) /* Return a symbol instead of a number. */ result = scm_string_to_symbol (str); } else { result = scm_c_locale_stringn_to_number (buffer, read, 10); if (!scm_is_true (result)) /* Return a symbol instead of a number. */ result = scm_from_locale_symboln (buffer, read); } return result; } static SCM scm_read_mixed_case_symbol (int chr, SCM port) { SCM result, str = SCM_EOL; int overflow = 0; char buffer[READER_BUFFER_SIZE]; size_t read = 0; scm_ungetc (chr, port); do { overflow = read_token (port, buffer, sizeof (buffer), &read); if ((overflow) || (scm_is_pair (str))) str = scm_cons (scm_from_locale_stringn (buffer, read), str); } while (overflow); if (scm_is_pair (str)) { str = scm_string_concatenate (scm_reverse_x (str, SCM_EOL)); result = scm_string_to_symbol (str); } else /* For symbols smaller than `sizeof (buffer)', we don't need to recur to Scheme strings. Therefore, we only create one Scheme object (a symbol) per symbol read. */ result = scm_from_locale_symboln (buffer, read); return result; } static SCM scm_read_number_and_radix (int chr, SCM port) #define FUNC_NAME "scm_lreadr" { SCM result, str = SCM_EOL; size_t read; char buffer[READER_BUFFER_SIZE]; unsigned int radix; int overflow = 0; switch (chr) { case 'B': case 'b': radix = 2; break; case 'o': case 'O': radix = 8; break; case 'd': case 'D': radix = 10; break; case 'x': case 'X': radix = 16; break; default: scm_ungetc (chr, port); scm_ungetc ('#', port); radix = 10; } do { overflow = read_token (port, buffer, sizeof (buffer), &read); if ((overflow) || (scm_is_pair (str))) str = scm_cons (scm_from_locale_stringn (buffer, read), str); } while (overflow); if (scm_is_pair (str)) { str = scm_string_concatenate (scm_reverse_x (str, SCM_EOL)); result = scm_string_to_number (str, scm_from_uint (radix)); } else result = scm_c_locale_stringn_to_number (buffer, read, radix); if (scm_is_true (result)) return result; scm_i_input_error (FUNC_NAME, port, "unknown # object", SCM_EOL); return SCM_BOOL_F; } #undef FUNC_NAME static SCM scm_read_quote (int chr, SCM port) { SCM p; long line = SCM_LINUM (port); int column = SCM_COL (port) - 1; switch (chr) { case '`': p = scm_sym_quasiquote; break; case '\'': p = scm_sym_quote; break; case ',': { int c; c = scm_getc (port); if ('@' == c) p = scm_sym_uq_splicing; else { scm_ungetc (c, port); p = scm_sym_unquote; } break; } default: fprintf (stderr, "%s: unhandled quote character (%i)\n", __FUNCTION__, chr); abort (); } p = scm_cons2 (p, scm_read_expression (port), SCM_EOL); if (SCM_RECORD_POSITIONS_P) scm_whash_insert (scm_source_whash, p, scm_make_srcprops (line, column, SCM_FILENAME (port), SCM_COPY_SOURCE_P ? (scm_cons2 (SCM_CAR (p), SCM_CAR (SCM_CDR (p)), SCM_EOL)) : SCM_UNDEFINED, SCM_EOL)); return p; } static inline SCM scm_read_semicolon_comment (int chr, SCM port) { int c; for (c = scm_getc (port); (c != EOF) && (c != '\n'); c = scm_getc (port)); return SCM_UNSPECIFIED; } /* Sharp readers, i.e. readers called after a `#' sign has been read. */ static SCM scm_read_boolean (int chr, SCM port) { switch (chr) { case 't': case 'T': return SCM_BOOL_T; case 'f': case 'F': return SCM_BOOL_F; } return SCM_UNSPECIFIED; } static SCM scm_read_character (int chr, SCM port) #define FUNC_NAME "scm_lreadr" { unsigned c; char charname[READER_CHAR_NAME_MAX_SIZE]; size_t charname_len; if (read_token (port, charname, sizeof (charname), &charname_len)) goto char_error; if (charname_len == 0) { chr = scm_getc (port); if (chr == EOF) scm_i_input_error (FUNC_NAME, port, "unexpected end of file " "while reading character", SCM_EOL); /* CHR must be a token delimiter, like a whitespace. */ return (SCM_MAKE_CHAR (chr)); } if (charname_len == 1) return SCM_MAKE_CHAR (charname[0]); if (*charname >= '0' && *charname < '8') { /* Dirk:FIXME:: This type of character syntax is not R5RS * compliant. Further, it should be verified that the constant * does only consist of octal digits. Finally, it should be * checked whether the resulting fixnum is in the range of * characters. */ SCM p = scm_c_locale_stringn_to_number (charname, charname_len, 8); if (SCM_I_INUMP (p)) return SCM_MAKE_CHAR (SCM_I_INUM (p)); } for (c = 0; c < scm_n_charnames; c++) if (scm_charnames[c] && (!strncasecmp (scm_charnames[c], charname, charname_len))) return SCM_MAKE_CHAR (scm_charnums[c]); char_error: scm_i_input_error (FUNC_NAME, port, "unknown character name ~a", scm_list_1 (scm_from_locale_stringn (charname, charname_len))); return SCM_UNSPECIFIED; } #undef FUNC_NAME static inline SCM scm_read_keyword (int chr, SCM port) { SCM symbol; /* Read the symbol that comprises the keyword. Doing this instead of invoking a specific symbol reader function allows `scm_read_keyword ()' to adapt to the delimiters currently valid of symbols. XXX: This implementation allows sloppy syntaxes like `#: key'. */ symbol = scm_read_expression (port); if (!scm_is_symbol (symbol)) scm_i_input_error (__FUNCTION__, port, "keyword prefix `~a' not followed by a symbol: ~s", scm_list_2 (SCM_MAKE_CHAR (chr), symbol)); return (scm_symbol_to_keyword (symbol)); } static inline SCM scm_read_vector (int chr, SCM port) { /* Note: We call `scm_read_sexp ()' rather than READER here in order to guarantee that it's going to do what we want. After all, this is an implementation detail of `scm_read_vector ()', not a desirable property. */ return (scm_vector (scm_read_sexp (chr, port))); } static inline SCM scm_read_srfi4_vector (int chr, SCM port) { return scm_i_read_array (port, chr); } static SCM scm_read_guile_bit_vector (int chr, SCM port) { /* Read the `#*10101'-style read syntax for bit vectors in Guile. This is terribly inefficient but who cares? */ SCM s_bits = SCM_EOL; for (chr = scm_getc (port); (chr != EOF) && ((chr == '0') || (chr == '1')); chr = scm_getc (port)) { s_bits = scm_cons ((chr == '0') ? SCM_BOOL_F : SCM_BOOL_T, s_bits); } if (chr != EOF) scm_ungetc (chr, port); return scm_bitvector (scm_reverse_x (s_bits, SCM_EOL)); } static inline SCM scm_read_scsh_block_comment (int chr, SCM port) { int bang_seen = 0; for (;;) { int c = scm_getc (port); if (c == EOF) scm_i_input_error ("skip_block_comment", port, "unterminated `#! ... !#' comment", SCM_EOL); if (c == '!') bang_seen = 1; else if (c == '#' && bang_seen) break; else bang_seen = 0; } return SCM_UNSPECIFIED; } static SCM scm_read_extended_symbol (int chr, SCM port) { /* Guile's extended symbol read syntax looks like this: #{This is all a symbol name}# So here, CHR is expected to be `{'. */ SCM result; int saw_brace = 0, finished = 0; size_t len = 0; char buf[1024]; result = scm_c_make_string (0, SCM_MAKE_CHAR ('X')); while ((chr = scm_getc (port)) != EOF) { if (saw_brace) { if (chr == '#') { finished = 1; break; } else { saw_brace = 0; buf[len++] = '}'; buf[len++] = chr; } } else if (chr == '}') saw_brace = 1; else buf[len++] = chr; if (len >= sizeof (buf) - 2) { scm_string_append (scm_list_2 (result, scm_from_locale_stringn (buf, len))); len = 0; } if (finished) break; } if (len) result = scm_string_append (scm_list_2 (result, scm_from_locale_stringn (buf, len))); return (scm_string_to_symbol (result)); } /* Top-level token readers, i.e., dispatchers. */ static SCM scm_read_sharp_extension (int chr, SCM port) { SCM proc; proc = scm_get_hash_procedure (chr); if (scm_is_true (scm_procedure_p (proc))) { long line = SCM_LINUM (port); int column = SCM_COL (port) - 2; SCM got; got = scm_call_2 (proc, SCM_MAKE_CHAR (chr), port); if (!scm_is_eq (got, SCM_UNSPECIFIED)) { if (SCM_RECORD_POSITIONS_P) return (recsexpr (got, line, column, SCM_FILENAME (port))); else return got; } } return SCM_UNSPECIFIED; } /* The reader for the sharp `#' character. It basically dispatches reads among the above token readers. */ static SCM scm_read_sharp (int chr, SCM port) #define FUNC_NAME "scm_lreadr" { SCM result; chr = scm_getc (port); result = scm_read_sharp_extension (chr, port); if (!scm_is_eq (result, SCM_UNSPECIFIED)) return result; switch (chr) { case '\\': return (scm_read_character (chr, port)); case '(': return (scm_read_vector (chr, port)); case 's': case 'u': case 'f': /* This one may return either a boolean or an SRFI-4 vector. */ return (scm_read_srfi4_vector (chr, port)); case '*': return (scm_read_guile_bit_vector (chr, port)); case 't': case 'T': case 'F': /* This one may return either a boolean or an SRFI-4 vector. */ return (scm_read_boolean (chr, port)); case ':': return (scm_read_keyword (chr, port)); case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': case '@': #if SCM_ENABLE_DEPRECATED /* See below for 'i' and 'e'. */ case 'a': case 'c': case 'y': case 'h': case 'l': #endif return (scm_i_read_array (port, chr)); case 'i': case 'e': #if SCM_ENABLE_DEPRECATED { /* When next char is '(', it really is an old-style uniform array. */ int next_c = scm_getc (port); if (next_c != EOF) scm_ungetc (next_c, port); if (next_c == '(') return scm_i_read_array (port, chr); /* Fall through. */ } #endif case 'b': case 'B': case 'o': case 'O': case 'd': case 'D': case 'x': case 'X': case 'I': case 'E': return (scm_read_number_and_radix (chr, port)); case '{': return (scm_read_extended_symbol (chr, port)); case '!': return (scm_read_scsh_block_comment (chr, port)); default: result = scm_read_sharp_extension (chr, port); if (scm_is_eq (result, SCM_UNSPECIFIED)) scm_i_input_error (FUNC_NAME, port, "Unknown # object: ~S", scm_list_1 (SCM_MAKE_CHAR (chr))); else return result; } return SCM_UNSPECIFIED; } #undef FUNC_NAME static SCM scm_read_expression (SCM port) #define FUNC_NAME "scm_read_expression" { while (1) { register int chr; chr = scm_getc (port); switch (chr) { case SCM_WHITE_SPACES: case SCM_LINE_INCREMENTORS: break; case ';': (void) scm_read_semicolon_comment (chr, port); break; case '(': return (scm_read_sexp (chr, port)); case '"': return (scm_read_string (chr, port)); case '\'': case '`': case ',': return (scm_read_quote (chr, port)); case '#': { SCM result; result = scm_read_sharp (chr, port); if (scm_is_eq (result, SCM_UNSPECIFIED)) /* We read a comment or some such. */ break; else return result; } case ')': scm_i_input_error (FUNC_NAME, port, "unexpected \")\"", SCM_EOL); break; case EOF: return SCM_EOF_VAL; case ':': if (scm_is_eq (SCM_PACK (SCM_KEYWORD_STYLE), scm_keyword_prefix)) return scm_symbol_to_keyword (scm_read_expression (port)); /* Fall through. */ default: { if (((chr >= '0') && (chr <= '9')) || (strchr ("+-.", chr))) return (scm_read_number (chr, port)); else return (scm_read_mixed_case_symbol (chr, port)); } } } } #undef FUNC_NAME /* Actual reader. */ SCM_DEFINE (scm_read, "read", 0, 1, 0, (SCM port), "Read an s-expression from the input port @var{port}, or from\n" "the current input port if @var{port} is not specified.\n" "Any whitespace before the next token is discarded.") #define FUNC_NAME s_scm_read { int c; if (SCM_UNBNDP (port)) port = scm_current_input_port (); SCM_VALIDATE_OPINPORT (1, port); c = flush_ws (port, (char *) NULL); if (EOF == c) return SCM_EOF_VAL; scm_ungetc (c, port); return (scm_read_expression (port)); } #undef FUNC_NAME /* Used when recording expressions constructed by `scm_read_sharp ()'. */ static SCM recsexpr (SCM obj, long line, int column, SCM filename) { if (!scm_is_pair(obj)) { return obj; } else { SCM tmp = obj, copy; /* If this sexpr is visible in the read:sharp source, we want to keep that information, so only record non-constant cons cells which haven't previously been read by the reader. */ if (scm_is_false (scm_whash_lookup (scm_source_whash, obj))) { if (SCM_COPY_SOURCE_P) { copy = scm_cons (recsexpr (SCM_CAR (obj), line, column, filename), SCM_UNDEFINED); while ((tmp = SCM_CDR (tmp)) && scm_is_pair (tmp)) { SCM_SETCDR (copy, scm_cons (recsexpr (SCM_CAR (tmp), line, column, filename), SCM_UNDEFINED)); copy = SCM_CDR (copy); } SCM_SETCDR (copy, tmp); } else { recsexpr (SCM_CAR (obj), line, column, filename); while ((tmp = SCM_CDR (tmp)) && scm_is_pair (tmp)) recsexpr (SCM_CAR (tmp), line, column, filename); copy = SCM_UNDEFINED; } scm_whash_insert (scm_source_whash, obj, scm_make_srcprops (line, column, filename, copy, SCM_EOL)); } return obj; } } /* Manipulate the read-hash-procedures alist. This could be written in Scheme, but maybe it will also be used by C code during initialisation. */ SCM_DEFINE (scm_read_hash_extend, "read-hash-extend", 2, 0, 0, (SCM chr, SCM proc), "Install the procedure @var{proc} for reading expressions\n" "starting with the character sequence @code{#} and @var{chr}.\n" "@var{proc} will be called with two arguments: the character\n" "@var{chr} and the port to read further data from. The object\n" "returned will be the return value of @code{read}. \n" "Passing @code{#f} for @var{proc} will remove a previous setting. \n" ) #define FUNC_NAME s_scm_read_hash_extend { SCM this; SCM prev; SCM_VALIDATE_CHAR (1, chr); SCM_ASSERT (scm_is_false (proc) || scm_is_eq (scm_procedure_p (proc), SCM_BOOL_T), proc, SCM_ARG2, FUNC_NAME); /* Check if chr is already in the alist. */ this = *scm_read_hash_procedures; prev = SCM_BOOL_F; while (1) { if (scm_is_null (this)) { /* not found, so add it to the beginning. */ if (scm_is_true (proc)) { *scm_read_hash_procedures = scm_cons (scm_cons (chr, proc), *scm_read_hash_procedures); } break; } if (scm_is_eq (chr, SCM_CAAR (this))) { /* already in the alist. */ if (scm_is_false (proc)) { /* remove it. */ if (scm_is_false (prev)) { *scm_read_hash_procedures = SCM_CDR (*scm_read_hash_procedures); } else scm_set_cdr_x (prev, SCM_CDR (this)); } else { /* replace it. */ scm_set_cdr_x (SCM_CAR (this), proc); } break; } prev = this; this = SCM_CDR (this); } return SCM_UNSPECIFIED; } #undef FUNC_NAME /* Recover the read-hash procedure corresponding to char c. */ static SCM scm_get_hash_procedure (int c) { SCM rest = *scm_read_hash_procedures; while (1) { if (scm_is_null (rest)) return SCM_BOOL_F; if (SCM_CHAR (SCM_CAAR (rest)) == c) return SCM_CDAR (rest); rest = SCM_CDR (rest); } } void scm_init_read () { scm_read_hash_procedures = SCM_VARIABLE_LOC (scm_c_define ("read-hash-procedures", SCM_EOL)); scm_init_opts (scm_read_options, scm_read_opts); #include "libguile/read.x" } /* Local Variables: c-file-style: "gnu" End: */