/* * Copyright (c) 2017 Calvin Rose * * 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 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 #include "cache.h" static const char base64[] = "0123456789" "ABCDEFGHIJKLMNOPQRSTUVWXYZ" "abcdefghijklmnopqrstuvwxyz" "_="; /* Calculate hash for string */ static uint32_t dst_string_calchash(const uint8_t *str, uint32_t len) { const uint8_t *end = str + len; uint32_t hash = 5381; while (str < end) hash = (hash << 5) + hash + *str++; return hash; } /* Begin building a string */ uint8_t *dst_string_begin(uint32_t length) { char *data = dst_alloc(DST_MEMORY_NONE, 2 * sizeof(uint32_t) + length + 1); uint8_t *str = (uint8_t *) (data + 2 * sizeof(uint32_t)); dst_string_length(str) = length; str[length] = 0; return str; } /* Finish building a string */ const uint8_t *dst_string_end(uint8_t *str) { DstValue check; dst_string_hash(str) = dst_string_calchash(str, dst_string_length(str)); check = dst_cache_add(dst_wrap_string(str)); /* Don't tag the memory of the string builder directly. If the string is * already cached, we don't want the gc to remove it from cache when the original * string builder is gced (check will contained the cached string) */ dst_gc_settype(dst_string_raw(check.as.string), DST_MEMORY_STRING); return check.as.string; } /* Load a buffer as a string */ const uint8_t *dst_string(const uint8_t *buf, uint32_t len) { uint32_t hash = dst_string_calchash(buf, len); int status = 0; DstValue *bucket = dst_cache_strfind(buf, len, hash, &status); if (status) { return bucket->as.string; } else { uint32_t newbufsize = len + 2 * sizeof(uint32_t) + 1; uint8_t *str = (uint8_t *)(dst_alloc(DST_MEMORY_STRING, newbufsize) + 2 * sizeof(uint32_t)); memcpy(str, buf, len); dst_string_length(str) = len; dst_string_hash(str) = hash; str[len] = 0; return dst_cache_add_bucket(dst_wrap_string(str), bucket).as.string; } } /* Helper for creating a unique string. Increment an integer * represented as an array of integer digits. */ static void inc_counter(uint8_t *digits, int base, int len) { int i; uint8_t carry = 1; for (i = len - 1; i >= 0; --i) { digits[i] += carry; carry = 0; if (digits[i] == base) { digits[i] = 0; carry = 1; } } } /* Generate a unique symbol. This is used in the library function gensym. The * symbol string data does not have GC enabled on it yet. You must manuallyb enable * it later. */ const uint8_t *dst_string_unique(const uint8_t *buf, uint32_t len) { DstValue *bucket; uint32_t hash; uint8_t counter[6] = {63, 63, 63, 63, 63, 63}; /* Leave spaces for 6 base 64 digits and two dashes. That means 64^6 possible suffixes, which * is enough for resolving collisions. */ uint32_t newlen = len + 8; uint32_t newbufsize = newlen + 2 * sizeof(uint32_t) + 1; uint8_t *str = (uint8_t *)(dst_alloc(DST_MEMORY_STRING, newbufsize) + 2 * sizeof(uint32_t)); dst_string_length(str) = newlen; memcpy(str, buf, len); str[len] = '-'; str[len + 1] = '-'; str[newlen] = 0; uint8_t *saltbuf = str + len + 2; int status = 1; while (status) { int i; inc_counter(counter, 64, 6); for (i = 0; i < 6; ++i) saltbuf[i] = base64[counter[i]]; hash = dst_string_calchash(str, newlen); bucket = dst_cache_strfind(str, newlen, hash, &status); } dst_string_hash(str) = hash; return dst_cache_add_bucket(dst_wrap_string(str), bucket).as.string; } /* Generate a unique string from a cstring */ const uint8_t *dst_cstring_unique(const char *s) { uint32_t len = 0; while (s[len]) ++len; return dst_string_unique((const uint8_t *)s, len); } /* Load a c string */ const uint8_t *dst_cstring(const char *str) { uint32_t len = 0; while (str[len]) ++len; return dst_string((const uint8_t *)str, len); } /* Temporary buffer size */ #define DST_BUFSIZE 36 static uint32_t real_to_string_impl(uint8_t *buf, double x) { int count = snprintf((char *) buf, DST_BUFSIZE, "%.21gF", x); return (uint32_t) count; } static void real_to_string_b(DstBuffer *buffer, double x) { dst_buffer_ensure(buffer, buffer->count + DST_BUFSIZE); buffer->count += real_to_string_impl(buffer->data + buffer->count, x); } static const uint8_t *real_to_string(double x) { uint8_t buf[DST_BUFSIZE]; return dst_string(buf, real_to_string_impl(buf, x)); } static uint32_t integer_to_string_impl(uint8_t *buf, int64_t x) { int neg = 0; uint8_t *hi, *low; uint32_t count = 0; if (x == 0) { buf[0] = '0'; return 1; } if (x < 0) { neg = 1; x = -x; } while (x > 0) { uint8_t digit = x % 10; buf[count++] = '0' + digit; x /= 10; } if (neg) buf[count++] = '-'; /* Reverse */ hi = buf + count - 1; low = buf; while (hi > low) { uint8_t temp = *low; *low++ = *hi; *hi-- = temp; } return count; } static void integer_to_string_b(DstBuffer *buffer, int64_t x) { dst_buffer_extra(buffer, DST_BUFSIZE); buffer->count += integer_to_string_impl(buffer->data + buffer->count, x); } static const uint8_t *integer_to_string(int64_t x) { uint8_t buf[DST_BUFSIZE]; return dst_string(buf, integer_to_string_impl(buf, x)); } #define HEX(i) (((uint8_t *) base64)[(i)]) /* Returns a string description for a pointer. Truncates * title to 12 characters */ static uint32_t string_description_impl(uint8_t *buf, const char *title, void *pointer) { uint8_t *c = buf; uint32_t i; union { uint8_t bytes[sizeof(void *)]; void *p; } pbuf; pbuf.p = pointer; *c++ = '<'; for (i = 0; title[i] && i < 12; ++i) *c++ = ((uint8_t *)title) [i]; *c++ = ' '; *c++ = '0'; *c++ = 'x'; for (i = sizeof(void *); i > 0; --i) { uint8_t byte = pbuf.bytes[i - 1]; if (!byte) continue; *c++ = HEX(byte >> 4); *c++ = HEX(byte & 0xF); } *c++ = '>'; return (uint32_t) (c - buf); } static void string_description_b(DstBuffer *buffer, const char *title, void *pointer) { dst_buffer_ensure(buffer, buffer->count + DST_BUFSIZE); buffer->count += string_description_impl(buffer->data + buffer->count, title, pointer); } /* Describes a pointer with a title (string_description("bork", myp) returns * a string "") */ static const uint8_t *string_description(const char *title, void *pointer) { uint8_t buf[DST_BUFSIZE]; return dst_string(buf, string_description_impl(buf, title, pointer)); } #undef HEX #undef DST_BUFSIZE static uint32_t dst_escape_string_length(const uint8_t *str) { uint32_t len = 2; uint32_t i; for (i = 0; i < dst_string_length(str); ++i) { switch (str[i]) { case '"': case '\n': case '\r': case '\0': len += 2; break; default: len += 1; break; } } return len; } static void dst_escape_string_impl(uint8_t *buf, const uint8_t *str) { uint32_t i, j; buf[0] = '"'; for (i = 0, j = 1; i < dst_string_length(str); ++i) { uint8_t c = str[i]; switch (c) { case '"': buf[j++] = '\\'; buf[j++] = '"'; break; case '\n': buf[j++] = '\\'; buf[j++] = 'n'; break; case '\r': buf[j++] = '\\'; buf[j++] = 'r'; break; case '\0': buf[j++] = '\\'; buf[j++] = '0'; break; default: buf[j++] = c; break; } } buf[j++] = '"'; } void dst_escape_string_b(DstBuffer *buffer, const uint8_t *str) { uint32_t len = dst_escape_string_length(str); dst_buffer_extra(buffer, len); dst_escape_string_impl(buffer->data + buffer->count, str); buffer->count += len; } const uint8_t *dst_escape_string(const uint8_t *str) { uint32_t len = dst_escape_string_length(str); uint8_t *buf = dst_string_begin(len); dst_escape_string_impl(buf, str); return dst_string_end(buf); } /* Returns a string pointer with the description of the string */ const uint8_t *dst_short_description(DstValue x) { switch (x.type) { case DST_NIL: return dst_cstring("nil"); case DST_BOOLEAN: if (x.as.boolean) return dst_cstring("true"); else return dst_cstring("false"); case DST_REAL: return real_to_string(x.as.real); case DST_INTEGER: return integer_to_string(x.as.integer); case DST_SYMBOL: return x.as.string; case DST_STRING: return dst_escape_string(x.as.string); case DST_USERDATA: return string_description(dst_userdata_type(x.as.pointer)->name, x.as.pointer); default: return string_description(dst_type_names[x.type], x.as.pointer); } } void dst_short_description_b(DstBuffer *buffer, DstValue x) { switch (x.type) { case DST_NIL: dst_buffer_push_cstring(buffer, "nil"); return; case DST_BOOLEAN: if (x.as.boolean) dst_buffer_push_cstring(buffer, "true"); else dst_buffer_push_cstring(buffer, "false"); return; case DST_REAL: real_to_string_b(buffer, x.as.real); return; case DST_INTEGER: integer_to_string_b(buffer, x.as.integer); return; case DST_SYMBOL: dst_buffer_push_bytes(buffer, x.as.string, dst_string_length(x.as.string)); return; case DST_STRING: dst_escape_string_b(buffer, x.as.string); return; case DST_USERDATA: string_description_b(buffer, dst_userdata_type(x.as.pointer)->name, x.as.pointer); return; default: string_description_b(buffer, dst_type_names[x.type], x.as.pointer); break; } } /* Static debug print helper */ static int64_t dst_description_helper(DstBuffer *b, DstTable *seen, DstValue x, int64_t next, int depth) { DstValue check = dst_table_get(seen, x); if (check.type == DST_INTEGER) { dst_buffer_push_cstring(b, ""); } else { const char *open; const char *close; uint32_t len, i; const DstValue *data; switch (x.type) { default: dst_short_description_b(b, x); return next; case DST_STRUCT: open = "{"; close = "}"; break; case DST_TABLE: open = "{"; close = "}"; break; case DST_TUPLE: open = "("; close = ")"; break; case DST_ARRAY: open = "["; close = "]"; break; } dst_table_put(seen, x, dst_wrap_integer(next++)); dst_buffer_push_cstring(b, open); if (depth == 0) { dst_buffer_push_cstring(b, "..."); } else if (dst_hashtable_view(x, &data, &len)) { int isfirst = 1; for (i = 0; i < len; i += 2) { if (data[i].type != DST_NIL) { if (isfirst) isfirst = 0; else dst_buffer_push_u8(b, ' '); next = dst_description_helper(b, seen, data[i], next, depth - 1); dst_buffer_push_u8(b, ' '); next = dst_description_helper(b, seen, data[i + 1], next, depth - 1); } } } else if (dst_seq_view(x, &data, &len)) { for (i = 0; i < len; ++i) { next = dst_description_helper(b, seen, data[i], next, depth - 1); if (i != len - 1) dst_buffer_push_u8(b, ' '); } } dst_buffer_push_cstring(b, close); } return next; } /* Debug print. Returns a description of an object as a string. */ const uint8_t *dst_description(DstValue x) { DstBuffer *buf = dst_buffer(10); DstTable *seen = dst_table(10); /* Only print description up to a depth of 4 */ dst_description_helper(buf, seen, x, 0, 4); return dst_string(buf->data, buf->count); } /* Convert any value to a dst string. Similar to description, but * strings, symbols, and buffers will return their content. */ const uint8_t *dst_to_string(DstValue x) { switch (x.type) { default: return dst_description(x); case DST_STRING: case DST_SYMBOL: return x.as.string; case DST_BUFFER: return dst_string(x.as.buffer->data, x.as.buffer->count); } }