/* * $Id: extio.c,v 1.50 2006-10-09 14:37:14 bacon Exp $ */ #include enum { __MASK_READ = 0x0100, __MASK_WRITE = 0x0200, __MASK_RDWR = 0x0400, __MASK_CLEAR = 0x00FF }; static int __in_type_map[] = { /* the order should match the order of the * XP_AWK_IN_XXX values in tree.h */ XP_AWK_EXTIO_PIPE, XP_AWK_EXTIO_COPROC, XP_AWK_EXTIO_FILE, XP_AWK_EXTIO_CONSOLE }; static int __in_mode_map[] = { /* the order should match the order of the * XP_AWK_IN_XXX values in tree.h */ XP_AWK_IO_PIPE_READ, 0, XP_AWK_IO_FILE_READ, XP_AWK_IO_CONSOLE_READ }; static int __in_mask_map[] = { __MASK_READ, __MASK_RDWR, __MASK_READ, __MASK_READ }; static int __out_type_map[] = { /* the order should match the order of the * XP_AWK_OUT_XXX values in tree.h */ XP_AWK_EXTIO_PIPE, XP_AWK_EXTIO_COPROC, XP_AWK_EXTIO_FILE, XP_AWK_EXTIO_FILE, XP_AWK_EXTIO_CONSOLE }; static int __out_mode_map[] = { /* the order should match the order of the * XP_AWK_OUT_XXX values in tree.h */ XP_AWK_IO_PIPE_WRITE, 0, XP_AWK_IO_FILE_WRITE, XP_AWK_IO_FILE_APPEND, XP_AWK_IO_CONSOLE_WRITE }; static int __out_mask_map[] = { __MASK_WRITE, __MASK_RDWR, __MASK_WRITE, __MASK_WRITE, __MASK_WRITE }; int xp_awk_readextio ( xp_awk_run_t* run, int in_type, const xp_char_t* name, xp_awk_str_t* buf) { xp_awk_extio_t* p = run->extio.chain; xp_awk_io_t handler; int extio_type, extio_mode, extio_mask, n, ret; xp_awk_val_t* rs; xp_char_t* rs_ptr; xp_size_t rs_len; xp_size_t line_len = 0; xp_assert (in_type >= 0 && in_type <= xp_countof(__in_type_map)); xp_assert (in_type >= 0 && in_type <= xp_countof(__in_mode_map)); xp_assert (in_type >= 0 && in_type <= xp_countof(__in_mask_map)); /* translate the in_type into the relevant extio type and mode */ extio_type = __in_type_map[in_type]; extio_mode = __in_mode_map[in_type]; extio_mask = __in_mask_map[in_type]; handler = run->extio.handler[extio_type]; if (handler == XP_NULL) { /* no io handler provided */ run->errnum = XP_AWK_EIOIMPL; /* TODO: change the error code */ return -1; } while (p != XP_NULL) { if (p->type == (extio_type | extio_mask) && xp_awk_strcmp (p->name,name) == 0) break; p = p->next; } if (p == XP_NULL) { p = (xp_awk_extio_t*) XP_AWK_MALLOC ( run->awk, xp_sizeof(xp_awk_extio_t)); if (p == XP_NULL) { run->errnum = XP_AWK_ENOMEM; return -1; } p->name = xp_awk_strdup (run->awk, name); if (p->name == XP_NULL) { XP_AWK_FREE (run->awk, p); run->errnum = XP_AWK_ENOMEM; return -1; } p->type = (extio_type | extio_mask); p->mode = extio_mode; p->handle = XP_NULL; p->in.buf[0] = XP_T('\0'); p->in.pos = 0; p->in.len = 0; p->in.eof = xp_false; p->next = XP_NULL; n = handler (XP_AWK_IO_OPEN, p, XP_NULL, 0); if (n == -1) { XP_AWK_FREE (run->awk, p->name); XP_AWK_FREE (run->awk, p); /* TODO: use meaningful error code */ if (xp_awk_setglobal ( run, XP_AWK_GLOBAL_ERRNO, xp_awk_val_one) == -1) return -1; run->errnum = XP_AWK_EIOHANDLER; return -1; } /* chain it */ p->next = run->extio.chain; run->extio.chain = p; /* n == 0 indicates that it has reached the end of input. * the user io handler can return 0 for the open request * if it doesn't have any files to open. One advantage * of doing this would be that you can skip the entire * pattern-block matching and exeuction. */ if (n == 0) return 0; } /* ready to read a line */ xp_awk_str_clear (buf); /* get the record separator */ rs = xp_awk_getglobal (run, XP_AWK_GLOBAL_RS); xp_awk_refupval (rs); if (rs->type == XP_AWK_VAL_NIL) { rs_ptr = XP_NULL; rs_len = 0; } else if (rs->type == XP_AWK_VAL_STR) { rs_ptr = ((xp_awk_val_str_t*)rs)->buf; rs_len = ((xp_awk_val_str_t*)rs)->len; } else { rs_ptr = xp_awk_valtostr (run, rs, xp_true, XP_NULL, &rs_len); if (rs_ptr == XP_NULL) { xp_awk_refdownval (run, rs); return -1; } } ret = 1; /* call the io handler */ while (1) { xp_char_t c; if (p->in.pos >= p->in.len) { xp_ssize_t n; if (p->in.eof) { if (XP_AWK_STR_LEN(buf) == 0) ret = 0; break; } n = handler (XP_AWK_IO_READ, p, p->in.buf, xp_countof(p->in.buf)); if (n == -1) { /* handler error. getline should return -1 */ /* TODO: use meaningful error code */ if (xp_awk_setglobal ( run, XP_AWK_GLOBAL_ERRNO, xp_awk_val_one) == -1) { ret = -1; } else { run->errnum = XP_AWK_EIOHANDLER; ret = -1; } break; } if (n == 0) { p->in.eof = xp_true; if (XP_AWK_STR_LEN(buf) == 0) ret = 0; break; } p->in.len = n; p->in.pos = 0; } c = p->in.buf[p->in.pos++]; if (rs_ptr == XP_NULL) { /* separate by a new line */ /* TODO: handle different line terminator like \r\n */ if (c == XP_T('\n')) break; } else if (rs_len == 0) { /* separate by a blank line */ /* TODO: handle different line terminator like \r\n */ if (line_len == 0 && c == XP_T('\n')) { if (XP_AWK_STR_LEN(buf) <= 0) { /* if the record is empty when a blank * line is encountered, the line * terminator should not be added to * the record */ continue; } /* when a blank line is encountered, * it needs to snip off the line * terminator of the previous line */ /* TODO: handle different line terminator like \r\n */ XP_AWK_STR_LEN(buf) -= 1; break; } } else if (rs_len == 1) { if (c == rs_ptr[0]) break; } else { const xp_char_t* match_ptr; xp_size_t match_len; xp_assert (run->global.rs != XP_NULL); /* TODO: safematchrex */ n = xp_awk_matchrex ( run->awk, run->global.rs, ((run->global.ignorecase)? XP_AWK_REX_IGNORECASE: 0), XP_AWK_STR_BUF(buf), XP_AWK_STR_LEN(buf), &match_ptr, &match_len, &run->errnum); if (n == -1) { ret = -1; break; } if (n == 1) { /* the match should be found at the end of * the current buffer */ xp_assert ( XP_AWK_STR_BUF(buf) + XP_AWK_STR_LEN(buf) == match_ptr + match_len); XP_AWK_STR_LEN(buf) -= match_len; break; } } if (xp_awk_str_ccat (buf, c) == (xp_size_t)-1) { run->errnum = XP_AWK_ENOMEM; ret = -1; break; } /* TODO: handle different line terminator like \r\n */ if (c == XP_T('\n')) line_len = 0; else line_len = line_len + 1; } if (rs_ptr != XP_NULL && rs->type != XP_AWK_VAL_STR) XP_AWK_FREE (run->awk, rs_ptr); xp_awk_refdownval (run, rs); /* increment NR */ if (ret != -1) { xp_awk_val_t* nr; xp_long_t lv; xp_real_t rv; nr = xp_awk_getglobal (run, XP_AWK_GLOBAL_NR); xp_awk_refupval (nr); n = xp_awk_valtonum (run, nr, &lv, &rv); xp_awk_refdownval (run, nr); if (n == -1) ret = -1; else { if (n == 1) lv = (xp_long_t)rv; nr = xp_awk_makeintval (run, lv + 1); if (nr == XP_NULL) { run->errnum = XP_AWK_ENOMEM; ret = -1; } else { if (xp_awk_setglobal ( run, XP_AWK_GLOBAL_NR, nr) == -1) ret = -1; } } } return ret; } int xp_awk_writeextio_val ( xp_awk_run_t* run, int out_type, const xp_char_t* name, xp_awk_val_t* v) { xp_char_t* str; xp_size_t len; int n; if (v->type == XP_AWK_VAL_STR) { str = ((xp_awk_val_str_t*)v)->buf; len = ((xp_awk_val_str_t*)v)->len; } else { str = xp_awk_valtostr (run, v, xp_true, XP_NULL, &len); if (str == XP_NULL) return -1; } n = xp_awk_writeextio_str (run, out_type, name, str, len); if (v->type != XP_AWK_VAL_STR) XP_AWK_FREE (run->awk, str); return n; } int xp_awk_writeextio_str ( xp_awk_run_t* run, int out_type, const xp_char_t* name, xp_char_t* str, xp_size_t len) { xp_awk_extio_t* p = run->extio.chain; xp_awk_io_t handler; int extio_type, extio_mode, extio_mask, n; xp_assert (out_type >= 0 && out_type <= xp_countof(__out_type_map)); xp_assert (out_type >= 0 && out_type <= xp_countof(__out_mode_map)); xp_assert (out_type >= 0 && out_type <= xp_countof(__out_mask_map)); /* translate the out_type into the relevant extio type and mode */ extio_type = __out_type_map[out_type]; extio_mode = __out_mode_map[out_type]; extio_mask = __out_mask_map[out_type]; handler = run->extio.handler[extio_type]; if (handler == XP_NULL) { /* no io handler provided */ run->errnum = XP_AWK_EIOIMPL; /* TODO: change the error code */ return -1; } /* look for the corresponding extio for name */ while (p != XP_NULL) { /* the file "1.tmp", in the following code snippets, * would be opened by the first print statement, but not by * the second print statement. this is because * both XP_AWK_OUT_FILE and XP_AWK_OUT_FILE_APPEND are * translated to XP_AWK_EXTIO_FILE and it is used to * keep track of file handles.. * * print "1111" >> "1.tmp" * print "1111" > "1.tmp" */ if (p->type == (extio_type | extio_mask) && xp_awk_strcmp (p->name, name) == 0) break; p = p->next; } /* if there is not corresponding extio for name, create one */ if (p == XP_NULL) { p = (xp_awk_extio_t*) XP_AWK_MALLOC ( run->awk, xp_sizeof(xp_awk_extio_t)); if (p == XP_NULL) { run->errnum = XP_AWK_ENOMEM; return -1; } p->name = xp_awk_strdup (run->awk, name); if (p->name == XP_NULL) { XP_AWK_FREE (run->awk, p); run->errnum = XP_AWK_ENOMEM; return -1; } p->type = (extio_type | extio_mask); p->mode = extio_mode; p->handle = XP_NULL; p->next = XP_NULL; n = handler (XP_AWK_IO_OPEN, p, XP_NULL, 0); if (n == -1) { XP_AWK_FREE (run->awk, p->name); XP_AWK_FREE (run->awk, p); /* TODO: use meaningful error code */ if (xp_awk_setglobal ( run, XP_AWK_GLOBAL_ERRNO, xp_awk_val_one) == -1) return -1; run->errnum = XP_AWK_EIOHANDLER; return -1; } /* chain it */ p->next = run->extio.chain; run->extio.chain = p; /* read the comment in xp_awk_readextio */ if (n == 0) return 0; } /* TODO: if write handler returns less than the request, loop */ if (len > 0) { n = handler (XP_AWK_IO_WRITE, p, str, len); if (n == -1) { /* TODO: use meaningful error code */ if (xp_awk_setglobal ( run, XP_AWK_GLOBAL_ERRNO, xp_awk_val_one) == -1) return -1; run->errnum = XP_AWK_EIOHANDLER; return -1; } if (n == 0) return 0; } return 1; } int xp_awk_flushextio ( xp_awk_run_t* run, int out_type, const xp_char_t* name) { xp_awk_extio_t* p = run->extio.chain; xp_awk_io_t handler; int extio_type, extio_mode, extio_mask, n; xp_bool_t ok = xp_false; xp_assert (out_type >= 0 && out_type <= xp_countof(__out_type_map)); xp_assert (out_type >= 0 && out_type <= xp_countof(__out_mode_map)); xp_assert (out_type >= 0 && out_type <= xp_countof(__out_mask_map)); /* translate the out_type into the relevant extio type and mode */ extio_type = __out_type_map[out_type]; extio_mode = __out_mode_map[out_type]; extio_mask = __out_mask_map[out_type]; handler = run->extio.handler[extio_type]; if (handler == XP_NULL) { /* no io handler provided */ run->errnum = XP_AWK_EIOIMPL; /* TODO: change the error code */ return -1; } /* look for the corresponding extio for name */ while (p != XP_NULL) { if (p->type == (extio_type | extio_mask) && (name == XP_NULL || xp_awk_strcmp (p->name, name) == 0)) { n = handler (XP_AWK_IO_FLUSH, p, XP_NULL, 0); if (n == -1) { /* TODO: use meaningful error code */ if (xp_awk_setglobal ( run, XP_AWK_GLOBAL_ERRNO, xp_awk_val_one) == -1) return -1; run->errnum = XP_AWK_EIOHANDLER; return -1; } ok = xp_true; } p = p->next; } if (ok) return 0; /* there is no corresponding extio for name */ /* TODO: use meaningful error code. but is this needed? */ if (xp_awk_setglobal ( run, XP_AWK_GLOBAL_ERRNO, xp_awk_val_one) == -1) return -1; run->errnum = XP_AWK_ENOSUCHIO; return -1; } int xp_awk_nextextio_read ( xp_awk_run_t* run, int in_type, const xp_char_t* name) { xp_awk_extio_t* p = run->extio.chain; xp_awk_io_t handler; int extio_type, extio_mode, extio_mask, n; xp_assert (in_type >= 0 && in_type <= xp_countof(__in_type_map)); xp_assert (in_type >= 0 && in_type <= xp_countof(__in_mode_map)); xp_assert (in_type >= 0 && in_type <= xp_countof(__in_mask_map)); /* translate the in_type into the relevant extio type and mode */ extio_type = __in_type_map[in_type]; extio_mode = __in_mode_map[in_type]; extio_mask = __in_mask_map[in_type]; handler = run->extio.handler[extio_type]; if (handler == XP_NULL) { /* no io handler provided */ run->errnum = XP_AWK_EIOIMPL; /* TODO: change the error code */ return -1; } while (p != XP_NULL) { if (p->type == (extio_type | extio_mask) && xp_awk_strcmp (p->name,name) == 0) break; p = p->next; } if (p == XP_NULL) { /* something is totally wrong */ run->errnum = XP_AWK_EINTERNAL; return -1; } n = handler (XP_AWK_IO_NEXT, p, XP_NULL, 0); if (n == -1) { /* TODO: is this errnum correct? */ run->errnum = XP_AWK_EIOHANDLER; return -1; } return n; } int xp_awk_closeextio_read ( xp_awk_run_t* run, int in_type, const xp_char_t* name) { xp_awk_extio_t* p = run->extio.chain, * px = XP_NULL; xp_awk_io_t handler; int extio_type, extio_mode, extio_mask; xp_assert (in_type >= 0 && in_type <= xp_countof(__in_type_map)); xp_assert (in_type >= 0 && in_type <= xp_countof(__in_mode_map)); xp_assert (in_type >= 0 && in_type <= xp_countof(__in_mask_map)); /* translate the in_type into the relevant extio type and mode */ extio_type = __in_type_map[in_type]; extio_mode = __in_mode_map[in_type]; extio_mask = __in_mask_map[in_type]; handler = run->extio.handler[extio_type]; if (handler == XP_NULL) { /* no io handler provided */ run->errnum = XP_AWK_EIOIMPL; /* TODO: change the error code */ return -1; } while (p != XP_NULL) { if (p->type == (extio_type | extio_mask) && xp_awk_strcmp (p->name, name) == 0) { xp_awk_io_t handler; handler = run->extio.handler[p->type & __MASK_CLEAR]; if (handler != XP_NULL) { if (handler (XP_AWK_IO_CLOSE, p, XP_NULL, 0) == -1) { /* this is not a run-time error.*/ /* TODO: set ERRNO */ run->errnum = XP_AWK_EIOHANDLER; return -1; } } if (px != XP_NULL) px->next = p->next; else run->extio.chain = p->next; XP_AWK_FREE (run->awk, p->name); XP_AWK_FREE (run->awk, p); return 0; } px = p; p = p->next; } /* this is not a run-time error */ run->errnum = XP_AWK_EIOHANDLER; return -1; } int xp_awk_closeextio_write ( xp_awk_run_t* run, int out_type, const xp_char_t* name) { xp_awk_extio_t* p = run->extio.chain, * px = XP_NULL; xp_awk_io_t handler; int extio_type, extio_mode, extio_mask; xp_assert (out_type >= 0 && out_type <= xp_countof(__out_type_map)); xp_assert (out_type >= 0 && out_type <= xp_countof(__out_mode_map)); xp_assert (out_type >= 0 && out_type <= xp_countof(__out_mask_map)); /* translate the out_type into the relevant extio type and mode */ extio_type = __out_type_map[out_type]; extio_mode = __out_mode_map[out_type]; extio_mask = __out_mask_map[out_type]; handler = run->extio.handler[extio_type]; if (handler == XP_NULL) { /* no io handler provided */ run->errnum = XP_AWK_EIOIMPL; /* TODO: change the error code */ return -1; } while (p != XP_NULL) { if (p->type == (extio_type | extio_mask) && xp_awk_strcmp (p->name, name) == 0) { xp_awk_io_t handler; handler = run->extio.handler[p->type & __MASK_CLEAR]; if (handler != XP_NULL) { if (handler (XP_AWK_IO_CLOSE, p, XP_NULL, 0) == -1) { /* this is not a run-time error.*/ /* TODO: set ERRNO */ run->errnum = XP_AWK_EIOHANDLER; return -1; } } if (px != XP_NULL) px->next = p->next; else run->extio.chain = p->next; XP_AWK_FREE (run->awk, p->name); XP_AWK_FREE (run->awk, p); return 0; } px = p; p = p->next; } /* this is not a run-time error */ /* TODO: set ERRNO */ run->errnum = XP_AWK_EIOHANDLER; return -1; } int xp_awk_closeextio (xp_awk_run_t* run, const xp_char_t* name) { xp_awk_extio_t* p = run->extio.chain, * px = XP_NULL; while (p != XP_NULL) { /* it handles the first that matches the given name * regardless of the extio type */ if (xp_awk_strcmp (p->name, name) == 0) { xp_awk_io_t handler; handler = run->extio.handler[p->type & __MASK_CLEAR]; if (handler != XP_NULL) { if (handler (XP_AWK_IO_CLOSE, p, XP_NULL, 0) == -1) { /* this is not a run-time error.*/ /* TODO: set ERRNO */ run->errnum = XP_AWK_EIOHANDLER; return -1; } } if (px != XP_NULL) px->next = p->next; else run->extio.chain = p->next; XP_AWK_FREE (run->awk, p->name); XP_AWK_FREE (run->awk, p); return 0; } px = p; p = p->next; } /* this is not a run-time error */ /* TODO: set ERRNO */ run->errnum = XP_AWK_EIOHANDLER; return -1; } void xp_awk_clearextio (xp_awk_run_t* run) { xp_awk_extio_t* next; xp_awk_io_t handler; int n; while (run->extio.chain != XP_NULL) { handler = run->extio.handler[ run->extio.chain->type & __MASK_CLEAR]; next = run->extio.chain->next; if (handler != XP_NULL) { n = handler (XP_AWK_IO_CLOSE, run->extio.chain, XP_NULL, 0); if (n == -1) { /* TODO: * some warning actions need to be taken */ } } XP_AWK_FREE (run->awk, run->extio.chain->name); XP_AWK_FREE (run->awk, run->extio.chain); run->extio.chain = next; } }