/* * Copyright (c) 2022 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. */ #ifndef JANET_AMALG #include "features.h" #include #include "gc.h" #include "util.h" #include "state.h" #endif /* Initialize a buffer */ JanetBuffer *janet_buffer_init(JanetBuffer *buffer, int32_t capacity) { uint8_t *data = NULL; if (capacity < 4) capacity = 4; janet_gcpressure(capacity); data = janet_malloc(sizeof(uint8_t) * (size_t) capacity); if (NULL == data) { JANET_OUT_OF_MEMORY; } buffer->count = 0; buffer->capacity = capacity; buffer->data = data; return buffer; } /* Deinitialize a buffer (free data memory) */ void janet_buffer_deinit(JanetBuffer *buffer) { janet_free(buffer->data); } /* Initialize a buffer */ JanetBuffer *janet_buffer(int32_t capacity) { JanetBuffer *buffer = janet_gcalloc(JANET_MEMORY_BUFFER, sizeof(JanetBuffer)); return janet_buffer_init(buffer, capacity); } /* Ensure that the buffer has enough internal capacity */ void janet_buffer_ensure(JanetBuffer *buffer, int32_t capacity, int32_t growth) { uint8_t *new_data; uint8_t *old = buffer->data; if (capacity <= buffer->capacity) return; int64_t big_capacity = ((int64_t) capacity) * growth; capacity = big_capacity > INT32_MAX ? INT32_MAX : (int32_t) big_capacity; janet_gcpressure(capacity - buffer->capacity); new_data = janet_realloc(old, (size_t) capacity * sizeof(uint8_t)); if (NULL == new_data) { JANET_OUT_OF_MEMORY; } buffer->data = new_data; buffer->capacity = capacity; } /* Ensure that the buffer has enough internal capacity */ void janet_buffer_setcount(JanetBuffer *buffer, int32_t count) { if (count < 0) return; if (count > buffer->count) { int32_t oldcount = buffer->count; janet_buffer_ensure(buffer, count, 1); memset(buffer->data + oldcount, 0, count - oldcount); } buffer->count = count; } /* Adds capacity for enough extra bytes to the buffer. Ensures that the * next n bytes pushed to the buffer will not cause a reallocation */ void janet_buffer_extra(JanetBuffer *buffer, int32_t n) { /* Check for buffer overflow */ if ((int64_t)n + buffer->count > INT32_MAX) { janet_panic("buffer overflow"); } int32_t new_size = buffer->count + n; if (new_size > buffer->capacity) { int32_t new_capacity = (new_size > (INT32_MAX / 2)) ? INT32_MAX : (new_size * 2); uint8_t *new_data = janet_realloc(buffer->data, new_capacity * sizeof(uint8_t)); janet_gcpressure(new_capacity - buffer->capacity); if (NULL == new_data) { JANET_OUT_OF_MEMORY; } buffer->data = new_data; buffer->capacity = new_capacity; } } /* Push a cstring to buffer */ void janet_buffer_push_cstring(JanetBuffer *buffer, const char *cstring) { int32_t len = 0; while (cstring[len]) ++len; janet_buffer_push_bytes(buffer, (const uint8_t *) cstring, len); } /* Push multiple bytes into the buffer */ void janet_buffer_push_bytes(JanetBuffer *buffer, const uint8_t *string, int32_t length) { if (0 == length) return; janet_buffer_extra(buffer, length); memcpy(buffer->data + buffer->count, string, length); buffer->count += length; } void janet_buffer_push_string(JanetBuffer *buffer, const uint8_t *string) { janet_buffer_push_bytes(buffer, string, janet_string_length(string)); } /* Push a single byte to the buffer */ void janet_buffer_push_u8(JanetBuffer *buffer, uint8_t byte) { janet_buffer_extra(buffer, 1); buffer->data[buffer->count] = byte; buffer->count++; } /* Push a 16 bit unsigned integer to the buffer */ void janet_buffer_push_u16(JanetBuffer *buffer, uint16_t x) { janet_buffer_extra(buffer, 2); buffer->data[buffer->count] = x & 0xFF; buffer->data[buffer->count + 1] = (x >> 8) & 0xFF; buffer->count += 2; } /* Push a 32 bit unsigned integer to the buffer */ void janet_buffer_push_u32(JanetBuffer *buffer, uint32_t x) { janet_buffer_extra(buffer, 4); buffer->data[buffer->count] = x & 0xFF; buffer->data[buffer->count + 1] = (x >> 8) & 0xFF; buffer->data[buffer->count + 2] = (x >> 16) & 0xFF; buffer->data[buffer->count + 3] = (x >> 24) & 0xFF; buffer->count += 4; } /* Push a 64 bit unsigned integer to the buffer */ void janet_buffer_push_u64(JanetBuffer *buffer, uint64_t x) { janet_buffer_extra(buffer, 8); buffer->data[buffer->count] = x & 0xFF; buffer->data[buffer->count + 1] = (x >> 8) & 0xFF; buffer->data[buffer->count + 2] = (x >> 16) & 0xFF; buffer->data[buffer->count + 3] = (x >> 24) & 0xFF; buffer->data[buffer->count + 4] = (x >> 32) & 0xFF; buffer->data[buffer->count + 5] = (x >> 40) & 0xFF; buffer->data[buffer->count + 6] = (x >> 48) & 0xFF; buffer->data[buffer->count + 7] = (x >> 56) & 0xFF; buffer->count += 8; } /* C functions */ JANET_CORE_FN(cfun_buffer_new, "(buffer/new capacity)", "Creates a new, empty buffer with enough backing memory for capacity bytes. " "Returns a new buffer of length 0.") { janet_fixarity(argc, 1); int32_t cap = janet_getinteger(argv, 0); JanetBuffer *buffer = janet_buffer(cap); return janet_wrap_buffer(buffer); } JANET_CORE_FN(cfun_buffer_new_filled, "(buffer/new-filled count &opt byte)", "Creates a new buffer of length count filled with byte. By default, byte is 0. " "Returns the new buffer.") { janet_arity(argc, 1, 2); int32_t count = janet_getinteger(argv, 0); int32_t byte = 0; if (argc == 2) { byte = janet_getinteger(argv, 1) & 0xFF; } JanetBuffer *buffer = janet_buffer(count); if (buffer->data) memset(buffer->data, byte, count); buffer->count = count; return janet_wrap_buffer(buffer); } JANET_CORE_FN(cfun_buffer_fill, "(buffer/fill buffer &opt byte)", "Fill up a buffer with bytes, defaulting to 0s. Does not change the buffer's length. " "Returns the modified buffer.") { janet_arity(argc, 1, 2); JanetBuffer *buffer = janet_getbuffer(argv, 0); int32_t byte = 0; if (argc == 2) { byte = janet_getinteger(argv, 1) & 0xFF; } if (buffer->count) { memset(buffer->data, byte, buffer->count); } return argv[0]; } JANET_CORE_FN(cfun_buffer_trim, "(buffer/trim buffer)", "Set the backing capacity of the buffer to the current length of the buffer. Returns the " "modified buffer.") { janet_fixarity(argc, 1); JanetBuffer *buffer = janet_getbuffer(argv, 0); if (buffer->count < buffer->capacity) { int32_t newcap = buffer->count > 4 ? buffer->count : 4; uint8_t *newData = janet_realloc(buffer->data, newcap); if (NULL == newData) { JANET_OUT_OF_MEMORY; } buffer->data = newData; buffer->capacity = newcap; } return argv[0]; } JANET_CORE_FN(cfun_buffer_u8, "(buffer/push-byte buffer & xs)", "Append bytes to a buffer. Will expand the buffer as necessary. " "Returns the modified buffer. Will throw an error if the buffer overflows.") { int32_t i; janet_arity(argc, 1, -1); JanetBuffer *buffer = janet_getbuffer(argv, 0); for (i = 1; i < argc; i++) { janet_buffer_push_u8(buffer, (uint8_t)(janet_getinteger(argv, i) & 0xFF)); } return argv[0]; } JANET_CORE_FN(cfun_buffer_word, "(buffer/push-word buffer & xs)", "Append machine words to a buffer. The 4 bytes of the integer are appended " "in twos complement, little endian order, unsigned for all x. Returns the modified buffer. Will " "throw an error if the buffer overflows.") { int32_t i; janet_arity(argc, 1, -1); JanetBuffer *buffer = janet_getbuffer(argv, 0); for (i = 1; i < argc; i++) { double number = janet_getnumber(argv, i); uint32_t word = (uint32_t) number; if (word != number) janet_panicf("cannot convert %v to machine word", argv[i]); janet_buffer_push_u32(buffer, word); } return argv[0]; } JANET_CORE_FN(cfun_buffer_chars, "(buffer/push-string buffer & xs)", "Push byte sequences onto the end of a buffer. " "Will accept any of strings, keywords, symbols, and buffers. " "Returns the modified buffer. " "Will throw an error if the buffer overflows.") { int32_t i; janet_arity(argc, 1, -1); JanetBuffer *buffer = janet_getbuffer(argv, 0); for (i = 1; i < argc; i++) { JanetByteView view = janet_getbytes(argv, i); if (view.bytes == buffer->data) { janet_buffer_ensure(buffer, buffer->count + view.len, 2); view.bytes = buffer->data; } janet_buffer_push_bytes(buffer, view.bytes, view.len); } return argv[0]; } JANET_CORE_FN(cfun_buffer_push, "(buffer/push buffer & xs)", "Push both individual bytes and byte sequences to a buffer. For each x in xs, " "push the byte if x is an integer, otherwise push the bytesequence to the buffer. " "Thus, this function behaves like both `buffer/push-string` and `buffer/push-byte`. " "Returns the modified buffer. " "Will throw an error if the buffer overflows.") { int32_t i; janet_arity(argc, 1, -1); JanetBuffer *buffer = janet_getbuffer(argv, 0); for (i = 1; i < argc; i++) { if (janet_checktype(argv[i], JANET_NUMBER)) { janet_buffer_push_u8(buffer, (uint8_t)(janet_getinteger(argv, i) & 0xFF)); } else { JanetByteView view = janet_getbytes(argv, i); if (view.bytes == buffer->data) { janet_buffer_ensure(buffer, buffer->count + view.len, 2); view.bytes = buffer->data; } janet_buffer_push_bytes(buffer, view.bytes, view.len); } } return argv[0]; } JANET_CORE_FN(cfun_buffer_clear, "(buffer/clear buffer)", "Sets the size of a buffer to 0 and empties it. The buffer retains " "its memory so it can be efficiently refilled. Returns the modified buffer.") { janet_fixarity(argc, 1); JanetBuffer *buffer = janet_getbuffer(argv, 0); buffer->count = 0; return argv[0]; } JANET_CORE_FN(cfun_buffer_popn, "(buffer/popn buffer n)", "Removes the last n bytes from the buffer. Returns the modified buffer.") { janet_fixarity(argc, 2); JanetBuffer *buffer = janet_getbuffer(argv, 0); int32_t n = janet_getinteger(argv, 1); if (n < 0) janet_panic("n must be non-negative"); if (buffer->count < n) { buffer->count = 0; } else { buffer->count -= n; } return argv[0]; } JANET_CORE_FN(cfun_buffer_slice, "(buffer/slice bytes &opt start end)", "Takes a slice of a byte sequence from start to end. The range is half open, " "[start, end). Indexes can also be negative, indicating indexing from the end of the " "end of the array. By default, start is 0 and end is the length of the buffer. " "Returns a new buffer.") { JanetByteView view = janet_getbytes(argv, 0); JanetRange range = janet_getslice(argc, argv); JanetBuffer *buffer = janet_buffer(range.end - range.start); if (buffer->data) memcpy(buffer->data, view.bytes + range.start, range.end - range.start); buffer->count = range.end - range.start; return janet_wrap_buffer(buffer); } static void bitloc(int32_t argc, Janet *argv, JanetBuffer **b, int32_t *index, int *bit) { janet_fixarity(argc, 2); JanetBuffer *buffer = janet_getbuffer(argv, 0); double x = janet_getnumber(argv, 1); int64_t bitindex = (int64_t) x; int64_t byteindex = bitindex >> 3; int which_bit = bitindex & 7; if (bitindex != x || bitindex < 0 || byteindex >= buffer->count) janet_panicf("invalid bit index %v", argv[1]); *b = buffer; *index = (int32_t) byteindex; *bit = which_bit; } JANET_CORE_FN(cfun_buffer_bitset, "(buffer/bit-set buffer index)", "Sets the bit at the given bit-index. Returns the buffer.") { int bit; int32_t index; JanetBuffer *buffer; bitloc(argc, argv, &buffer, &index, &bit); buffer->data[index] |= 1 << bit; return argv[0]; } JANET_CORE_FN(cfun_buffer_bitclear, "(buffer/bit-clear buffer index)", "Clears the bit at the given bit-index. Returns the buffer.") { int bit; int32_t index; JanetBuffer *buffer; bitloc(argc, argv, &buffer, &index, &bit); buffer->data[index] &= ~(1 << bit); return argv[0]; } JANET_CORE_FN(cfun_buffer_bitget, "(buffer/bit buffer index)", "Gets the bit at the given bit-index. Returns true if the bit is set, false if not.") { int bit; int32_t index; JanetBuffer *buffer; bitloc(argc, argv, &buffer, &index, &bit); return janet_wrap_boolean(buffer->data[index] & (1 << bit)); } JANET_CORE_FN(cfun_buffer_bittoggle, "(buffer/bit-toggle buffer index)", "Toggles the bit at the given bit index in buffer. Returns the buffer.") { int bit; int32_t index; JanetBuffer *buffer; bitloc(argc, argv, &buffer, &index, &bit); buffer->data[index] ^= (1 << bit); return argv[0]; } JANET_CORE_FN(cfun_buffer_blit, "(buffer/blit dest src &opt dest-start src-start src-end)", "Insert the contents of src into dest. Can optionally take indices that " "indicate which part of src to copy into which part of dest. Indices can be " "negative to index from the end of src or dest. Returns dest.") { janet_arity(argc, 2, 5); JanetBuffer *dest = janet_getbuffer(argv, 0); JanetByteView src = janet_getbytes(argv, 1); int same_buf = src.bytes == dest->data; int32_t offset_dest = 0; int32_t offset_src = 0; if (argc > 2) offset_dest = janet_gethalfrange(argv, 2, dest->count, "dest-start"); if (argc > 3) offset_src = janet_gethalfrange(argv, 3, src.len, "src-start"); int32_t length_src; if (argc > 4) { int32_t src_end = janet_gethalfrange(argv, 4, src.len, "src-end"); length_src = src_end - offset_src; if (length_src < 0) length_src = 0; } else { length_src = src.len - offset_src; } int64_t last = (int64_t) offset_dest + length_src; if (last > INT32_MAX) janet_panic("buffer blit out of range"); int32_t last32 = (int32_t) last; janet_buffer_ensure(dest, last32, 2); if (last32 > dest->count) dest->count = last32; if (length_src) { if (same_buf) { /* janet_buffer_ensure may have invalidated src */ src.bytes = dest->data; memmove(dest->data + offset_dest, src.bytes + offset_src, length_src); } else { memcpy(dest->data + offset_dest, src.bytes + offset_src, length_src); } } return argv[0]; } JANET_CORE_FN(cfun_buffer_format, "(buffer/format buffer format & args)", "Snprintf like functionality for printing values into a buffer. Returns " " the modified buffer.") { janet_arity(argc, 2, -1); JanetBuffer *buffer = janet_getbuffer(argv, 0); const char *strfrmt = (const char *) janet_getstring(argv, 1); janet_buffer_format(buffer, strfrmt, 1, argc, argv); return argv[0]; } void janet_lib_buffer(JanetTable *env) { JanetRegExt buffer_cfuns[] = { JANET_CORE_REG("buffer/new", cfun_buffer_new), JANET_CORE_REG("buffer/new-filled", cfun_buffer_new_filled), JANET_CORE_REG("buffer/fill", cfun_buffer_fill), JANET_CORE_REG("buffer/trim", cfun_buffer_trim), JANET_CORE_REG("buffer/push-byte", cfun_buffer_u8), JANET_CORE_REG("buffer/push-word", cfun_buffer_word), JANET_CORE_REG("buffer/push-string", cfun_buffer_chars), JANET_CORE_REG("buffer/push", cfun_buffer_push), JANET_CORE_REG("buffer/popn", cfun_buffer_popn), JANET_CORE_REG("buffer/clear", cfun_buffer_clear), JANET_CORE_REG("buffer/slice", cfun_buffer_slice), JANET_CORE_REG("buffer/bit-set", cfun_buffer_bitset), JANET_CORE_REG("buffer/bit-clear", cfun_buffer_bitclear), JANET_CORE_REG("buffer/bit", cfun_buffer_bitget), JANET_CORE_REG("buffer/bit-toggle", cfun_buffer_bittoggle), JANET_CORE_REG("buffer/blit", cfun_buffer_blit), JANET_CORE_REG("buffer/format", cfun_buffer_format), JANET_REG_END }; janet_core_cfuns_ext(env, NULL, buffer_cfuns); }