/* Generic streaming support for various data types. Copyright (C) 2011-2024 Free Software Foundation, Inc. Contributed by Diego Novillo This file is part of GCC. GCC is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3, or (at your option) any later version. GCC 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 General Public License for more details. You should have received a copy of the GNU General Public License along with GCC; see the file COPYING3. If not see . */ #ifndef GCC_DATA_STREAMER_H #define GCC_DATA_STREAMER_H #include "lto-streamer.h" /* Data structures used to pack values and bitflags into a vector of words. Used to stream values of a fixed number of bits in a space efficient way. */ static unsigned const BITS_PER_BITPACK_WORD = HOST_BITS_PER_WIDE_INT; typedef unsigned HOST_WIDE_INT bitpack_word_t; struct bitpack_d { /* The position of the first unused or unconsumed bit in the word. */ unsigned pos; /* The current word we are (un)packing. */ bitpack_word_t word; /* The lto_output_stream or the lto_input_block we are streaming to/from. */ void *stream; }; /* In data-streamer.cc */ void bp_pack_var_len_unsigned (struct bitpack_d *, unsigned HOST_WIDE_INT); void bp_pack_var_len_int (struct bitpack_d *, HOST_WIDE_INT); void bp_pack_real_value (struct bitpack_d *, const REAL_VALUE_TYPE *); void bp_unpack_real_value (struct bitpack_d *, REAL_VALUE_TYPE *); unsigned HOST_WIDE_INT bp_unpack_var_len_unsigned (struct bitpack_d *); HOST_WIDE_INT bp_unpack_var_len_int (struct bitpack_d *); extern unsigned host_num_poly_int_coeffs; /* In data-streamer-out.cc */ void streamer_write_zero (struct output_block *); void streamer_write_uhwi (struct output_block *, unsigned HOST_WIDE_INT); void streamer_write_hwi (struct output_block *, HOST_WIDE_INT); void streamer_write_poly_uint64 (struct output_block *, poly_uint64); void streamer_write_poly_int64 (struct output_block *, poly_int64); void streamer_write_gcov_count (struct output_block *, gcov_type); void streamer_write_string (struct output_block *, struct lto_output_stream *, const char *, bool); void streamer_write_string_with_length (struct output_block *, struct lto_output_stream *, const char *, unsigned int, bool); void bp_pack_string_with_length (struct output_block *, struct bitpack_d *, const char *, unsigned int, bool); void bp_pack_string (struct output_block *, struct bitpack_d *, const char *, bool); void streamer_write_uhwi_stream (struct lto_output_stream *, unsigned HOST_WIDE_INT); void streamer_write_hwi_stream (struct lto_output_stream *, HOST_WIDE_INT); void streamer_write_gcov_count_stream (struct lto_output_stream *, gcov_type); void streamer_write_data_stream (struct lto_output_stream *, const void *, size_t); void streamer_write_wide_int (struct output_block *, const wide_int &); void streamer_write_widest_int (struct output_block *, const widest_int &); void streamer_write_vrange (struct output_block *, const class vrange &); /* In data-streamer-in.cc */ const char *streamer_read_string (class data_in *, class lto_input_block *); const char *streamer_read_indexed_string (class data_in *, class lto_input_block *, unsigned int *); const char *bp_unpack_indexed_string (class data_in *, struct bitpack_d *, unsigned int *); const char *bp_unpack_string (class data_in *, struct bitpack_d *); unsigned HOST_WIDE_INT streamer_read_uhwi (class lto_input_block *); HOST_WIDE_INT streamer_read_hwi (class lto_input_block *); poly_uint64 streamer_read_poly_uint64 (class lto_input_block *); poly_int64 streamer_read_poly_int64 (class lto_input_block *); gcov_type streamer_read_gcov_count (class lto_input_block *); wide_int streamer_read_wide_int (class lto_input_block *); widest_int streamer_read_widest_int (class lto_input_block *); void streamer_read_value_range (class lto_input_block *, class data_in *, class value_range &); /* Returns a new bit-packing context for bit-packing into S. */ inline struct bitpack_d bitpack_create (struct lto_output_stream *s) { struct bitpack_d bp; bp.pos = 0; bp.word = 0; bp.stream = (void *)s; return bp; } /* Pack the NBITS bit sized value VAL into the bit-packing context BP. */ inline void bp_pack_value (struct bitpack_d *bp, bitpack_word_t val, unsigned nbits) { bitpack_word_t word = bp->word; int pos = bp->pos; /* Verify that VAL fits in the NBITS. */ gcc_checking_assert (nbits == BITS_PER_BITPACK_WORD || !(val & ~(((bitpack_word_t)1< BITS_PER_BITPACK_WORD) { streamer_write_uhwi_stream ((struct lto_output_stream *) bp->stream, word); word = val; pos = nbits; } else { word |= val << pos; pos += nbits; } bp->word = word; bp->pos = pos; } /* Pack VAL into the bit-packing context BP, using NBITS for each coefficient. */ inline void bp_pack_poly_value (struct bitpack_d *bp, const poly_int &val, unsigned nbits) { for (int i = 0; i < NUM_POLY_INT_COEFFS; ++i) bp_pack_value (bp, val.coeffs[i], nbits); } /* Finishes bit-packing of BP. */ inline void streamer_write_bitpack (struct bitpack_d *bp) { streamer_write_uhwi_stream ((struct lto_output_stream *) bp->stream, bp->word); bp->word = 0; bp->pos = 0; } /* Returns a new bit-packing context for bit-unpacking from IB. */ inline struct bitpack_d streamer_read_bitpack (class lto_input_block *ib) { struct bitpack_d bp; bp.word = streamer_read_uhwi (ib); bp.pos = 0; bp.stream = (void *)ib; return bp; } /* Unpacks NBITS bits from the bit-packing context BP and returns them. */ inline bitpack_word_t bp_unpack_value (struct bitpack_d *bp, unsigned nbits) { bitpack_word_t mask, val; int pos = bp->pos; mask = (nbits == BITS_PER_BITPACK_WORD ? (bitpack_word_t) -1 : ((bitpack_word_t) 1 << nbits) - 1); /* If there are not continuous nbits in the current bitpack word switch to the next one. */ if (pos + nbits > BITS_PER_BITPACK_WORD) { bp->word = val = streamer_read_uhwi ((class lto_input_block *)bp->stream); bp->pos = nbits; return val & mask; } val = bp->word; val >>= pos; bp->pos = pos + nbits; return val & mask; } /* Common code for reading poly_int. */ template poly_int poly_int_read_common (F read_coeff, Args ...args) { poly_int x; unsigned i; #ifdef ACCEL_COMPILER /* Ensure that we have streamed-in host_num_poly_int_coeffs. */ const unsigned num_poly_int_coeffs = host_num_poly_int_coeffs; gcc_assert (host_num_poly_int_coeffs > 0); #else const unsigned num_poly_int_coeffs = NUM_POLY_INT_COEFFS; #endif if (num_poly_int_coeffs <= NUM_POLY_INT_COEFFS) { for (i = 0; i < num_poly_int_coeffs; i++) x.coeffs[i] = read_coeff (args...); for (; i < NUM_POLY_INT_COEFFS; i++) x.coeffs[i] = 0; } else { for (i = 0; i < NUM_POLY_INT_COEFFS; i++) x.coeffs[i] = read_coeff (args...); /* Ensure that degree of poly_int <= accel NUM_POLY_INT_COEFFS. */ for (; i < num_poly_int_coeffs; i++) { C val = read_coeff (args...); if (val != 0) fatal_error (input_location, "degree of % exceeds " "% (%d)", NUM_POLY_INT_COEFFS); } } return x; } /* Unpacks a polynomial value from the bit-packing context BP in which each coefficient has NBITS bits. */ inline poly_int bp_unpack_poly_value (struct bitpack_d *bp, unsigned nbits) { return poly_int_read_common (bp_unpack_value, bp, nbits); } /* Write a character to the output block. */ inline void streamer_write_char_stream (struct lto_output_stream *obs, char c) { /* No space left. */ if (obs->left_in_block == 0) lto_append_block (obs); /* Write the actual character. */ char *current_pointer = obs->current_pointer; *(current_pointer++) = c; obs->current_pointer = current_pointer; obs->total_size++; obs->left_in_block--; } /* Read byte from the input block. */ inline unsigned char streamer_read_uchar (class lto_input_block *ib) { if (ib->p >= ib->len) lto_section_overrun (ib); return (ib->data[ib->p++]); } /* Output VAL into OBS and verify it is in range MIN...MAX that is supposed to be compile time constant. Be host independent, limit range to 31bits. */ inline void streamer_write_hwi_in_range (struct lto_output_stream *obs, HOST_WIDE_INT min, HOST_WIDE_INT max, HOST_WIDE_INT val) { HOST_WIDE_INT range = max - min; gcc_checking_assert (val >= min && val <= max && range > 0 && range < 0x7fffffff); val -= min; streamer_write_uhwi_stream (obs, (unsigned HOST_WIDE_INT) val); } /* Input VAL into OBS and verify it is in range MIN...MAX that is supposed to be compile time constant. PURPOSE is used for error reporting. */ inline HOST_WIDE_INT streamer_read_hwi_in_range (class lto_input_block *ib, const char *purpose, HOST_WIDE_INT min, HOST_WIDE_INT max) { HOST_WIDE_INT range = max - min; unsigned HOST_WIDE_INT uval = streamer_read_uhwi (ib); gcc_checking_assert (range > 0 && range < 0x7fffffff); HOST_WIDE_INT val = (HOST_WIDE_INT) (uval + (unsigned HOST_WIDE_INT) min); if (val < min || val > max) lto_value_range_error (purpose, val, min, max); return val; } /* Output VAL into BP and verify it is in range MIN...MAX that is supposed to be compile time constant. Be host independent, limit range to 31bits. */ inline void bp_pack_int_in_range (struct bitpack_d *bp, HOST_WIDE_INT min, HOST_WIDE_INT max, HOST_WIDE_INT val) { HOST_WIDE_INT range = max - min; int nbits = floor_log2 (range) + 1; gcc_checking_assert (val >= min && val <= max && range > 0 && range < 0x7fffffff); val -= min; bp_pack_value (bp, val, nbits); } /* Input VAL into BP and verify it is in range MIN...MAX that is supposed to be compile time constant. PURPOSE is used for error reporting. */ inline HOST_WIDE_INT bp_unpack_int_in_range (struct bitpack_d *bp, const char *purpose, HOST_WIDE_INT min, HOST_WIDE_INT max) { HOST_WIDE_INT range = max - min; int nbits = floor_log2 (range) + 1; HOST_WIDE_INT val = bp_unpack_value (bp, nbits); gcc_checking_assert (range > 0 && range < 0x7fffffff); if (val < min || val > max) lto_value_range_error (purpose, val, min, max); return val; } /* Output VAL of type "enum enum_name" into OBS. Assume range 0...ENUM_LAST - 1. */ #define streamer_write_enum(obs,enum_name,enum_last,val) \ streamer_write_hwi_in_range ((obs), 0, (int)(enum_last) - 1, (int)(val)) /* Input enum of type "enum enum_name" from IB. Assume range 0...ENUM_LAST - 1. */ #define streamer_read_enum(ib,enum_name,enum_last) \ (enum enum_name)streamer_read_hwi_in_range ((ib), #enum_name, 0, \ (int)(enum_last) - 1) /* Output VAL of type "enum enum_name" into BP. Assume range 0...ENUM_LAST - 1. */ #define bp_pack_enum(bp,enum_name,enum_last,val) \ bp_pack_int_in_range ((bp), 0, (int)(enum_last) - 1, (int)(val)) /* Input enum of type "enum enum_name" from BP. Assume range 0...ENUM_LAST - 1. */ #define bp_unpack_enum(bp,enum_name,enum_last) \ (enum enum_name)bp_unpack_int_in_range ((bp), #enum_name, 0, \ (int)(enum_last) - 1) /* Output the start of a record with TAG to output block OB. */ inline void streamer_write_record_start (struct output_block *ob, enum LTO_tags tag) { streamer_write_enum (ob->main_stream, LTO_tags, LTO_NUM_TAGS, tag); } /* Return the next tag in the input block IB. */ inline enum LTO_tags streamer_read_record_start (class lto_input_block *ib) { return streamer_read_enum (ib, LTO_tags, LTO_NUM_TAGS); } #endif /* GCC_DATA_STREAMER_H */