/* bitio.c part of swftools implementation of bitio.h. Copyright (C) 2003 Matthias Kramm This program 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 2 of the License, or (at your option) any later version. This program 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 this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include #include #ifdef HAVE_UNISTD_H #include #endif #ifdef HAVE_IO_H #include #endif #include #include #define __USE_LARGEFILE64 #include #include #include "../config.h" #ifdef HAVE_ZLIB #include #define ZLIB_BUFFER_SIZE 16384 #endif #include "./bitio.h" /* ---------------------------- null reader ------------------------------- */ static int reader_nullread(reader_t*r, void* data, int len) { memset(data, 0, len); return len; } static void reader_nullread_dealloc(reader_t*r) { memset(r, 0, sizeof(reader_t)); } static int reader_nullseek(reader_t*r, int pos) { return pos; } void reader_init_nullreader(reader_t*r) { r->read = reader_nullread; r->seek = reader_nullseek; r->dealloc = reader_nullread_dealloc; r->internal = 0; r->type = READER_TYPE_NULL; r->mybyte = 0; r->bitpos = 8; r->pos = 0; } /* ---------------------------- file reader ------------------------------- */ static int reader_fileread(reader_t*reader, void* data, int len) { int ret = read((int)reader->internal, data, len); if(ret>=0) reader->pos += ret; return ret; } static void reader_fileread_dealloc(reader_t*r) { if(r->type == READER_TYPE_FILE2) { close((ptroff_t)r->internal); } memset(r, 0, sizeof(reader_t)); } static int reader_fileread_seek(reader_t*r, int pos) { return lseek((ptroff_t)r->internal, pos, SEEK_SET); } void reader_init_filereader(reader_t*r, int handle) { r->read = reader_fileread; r->seek = reader_fileread_seek; r->dealloc = reader_fileread_dealloc; r->internal = (void*)handle; r->type = READER_TYPE_FILE; r->mybyte = 0; r->bitpos = 8; r->pos = 0; } int reader_init_filereader2(reader_t*r, const char*filename) { #ifdef HAVE_OPEN64 int fi = open64 #else int fi = open #endif (filename, #ifdef O_BINARY O_BINARY| #endif O_RDONLY); reader_init_filereader(r, fi); r->type = READER_TYPE_FILE2; return fi; } /* ---------------------------- mem reader ------------------------------- */ typedef struct _memread { unsigned char*data; int length; } memread_t; static int reader_memread(reader_t*reader, void* data, int len) { memread_t*mr = (memread_t*)reader->internal; if(mr->length - reader->pos < len) { len = mr->length - reader->pos; } if(!len) return 0; memcpy(data, &mr->data[reader->pos], len); reader->pos += len; return len; } static int reader_memseek(reader_t*reader, int pos) { memread_t*mr = (memread_t*)reader->internal; if(pos>=0 && pos<=mr->length) { reader->pos = pos; return pos; } else { return -1; } } static void reader_memread_dealloc(reader_t*reader) { if(reader->internal) free(reader->internal); memset(reader, 0, sizeof(reader_t)); } void reader_init_memreader(reader_t*r, void*newdata, int newlength) { memread_t*mr = (memread_t*)malloc(sizeof(memread_t)); mr->data = (unsigned char*)newdata; mr->length = newlength; r->read = reader_memread; r->seek = reader_memseek; r->dealloc = reader_memread_dealloc; r->internal = (void*)mr; r->type = READER_TYPE_MEM; r->mybyte = 0; r->bitpos = 8; r->pos = 0; } /* ---------------------------- zzip reader ------------------------------ */ #ifdef HAVE_ZZIP static int reader_zzip_read(reader_t*reader, void* data, int len) { return zzip_file_read((ZZIP_FILE*)reader->internal, data, len); } static void reader_zzip_dealloc(reader_t*reader) { memset(reader, 0, sizeof(reader_t)); } static int reader_zzip_seek(reader_t*reader, int pos) { return zzip_seek((ZZIP_FILE*)reader->internal, pos, SEEK_SET); } void reader_init_zzipreader(reader_t*r,ZZIP_FILE*z) { r->read = reader_zzip_read; r->seek = reader_zzip_seek; r->dealloc = reader_zzip_dealloc; r->internal = z; r->type = READER_TYPE_ZZIP; r->mybyte = 0; r->bitpos = 8; r->pos = 0; } #endif /* ---------------------------- mem writer ------------------------------- */ typedef struct _memwrite { unsigned char*data; int length; } memwrite_t; static int writer_memwrite_write(writer_t*w, void* data, int len) { memwrite_t*mw = (memwrite_t*)w->internal; if(mw->length - w->pos > len) { memcpy(&mw->data[w->pos], data, len); w->pos += len; return len; } else { memcpy(&mw->data[w->pos], data, mw->length - w->pos); w->pos = mw->length; return mw->length - w->pos; } } static void writer_memwrite_finish(writer_t*w) { if(w->internal) free(w->internal); w->internal = 0; } static void dummy_flush(writer_t*w) { } void writer_init_memwriter(writer_t*w, void*data, int len) { memwrite_t *mr; mr = (memwrite_t*)malloc(sizeof(memwrite_t)); mr->data = (unsigned char *)data; mr->length = len; memset(w, 0, sizeof(writer_t)); w->write = writer_memwrite_write; w->flush = dummy_flush; w->finish = writer_memwrite_finish; w->internal = (void*)mr; w->type = WRITER_TYPE_MEM; w->bitpos = 0; w->mybyte = 0; w->pos = 0; } /* ------------------------- growing mem writer ------------------------------- */ typedef struct _growmemwrite { unsigned char*data; int length; U32 grow; } growmemwrite_t; static int writer_growmemwrite_write(writer_t*w, void* data, int len) { growmemwrite_t*mw = (growmemwrite_t*)w->internal; if(!mw->data) { fprintf(stderr, "Illegal write operation: data already given away"); exit(1); } if(mw->length - w->pos < len) { int newlength = mw->length; while(newlength - w->pos < len) { newlength += mw->grow; } #ifdef NO_REALLOC unsigned char*newmem = (unsigned char*)malloc(newlength); memcpy(newmem, mw->data, mw->length); free(mw->data); mw->data = newmem; #else mw->data = (unsigned char*)realloc(mw->data, newlength); #endif mw->length = newlength; } memcpy(&mw->data[w->pos], data, len); w->pos += len; return len; } static void writer_growmemwrite_finish(writer_t*w) { growmemwrite_t*mw = (growmemwrite_t*)w->internal; if(mw->data) { free(mw->data);mw->data = 0; } mw->length = 0; free(w->internal);mw=0; memset(w, 0, sizeof(writer_t)); } void* writer_growmemwrite_memptr(writer_t*w, int*len) { growmemwrite_t*mw = (growmemwrite_t*)w->internal; if(len) { *len = w->pos; } return mw->data; } void* writer_growmemwrite_getmem(writer_t*w) { growmemwrite_t*mw = (growmemwrite_t*)w->internal; void*ret = mw->data; /* remove own reference so that neither write() nor finish() can free it. It's property of the caller now. */ mw->data = 0; return ret; } void writer_growmemwrite_reset(writer_t*w) { growmemwrite_t*mw = (growmemwrite_t*)w->internal; w->pos = 0; w->bitpos = 0; w->mybyte = 0; } void writer_init_growingmemwriter(writer_t*w, U32 grow) { growmemwrite_t *mw = (growmemwrite_t *)malloc(sizeof(growmemwrite_t)); mw->length = 4096; mw->data = (unsigned char *)malloc(mw->length); mw->grow = grow; memset(w, 0, sizeof(writer_t)); w->write = writer_growmemwrite_write; w->flush = dummy_flush; w->finish = writer_growmemwrite_finish; w->internal = (void*)mw; w->type = WRITER_TYPE_GROWING_MEM; w->bitpos = 0; w->mybyte = 0; w->pos = 0; } /* ---------------------------- file writer ------------------------------- */ typedef struct _filewrite { int handle; char free_handle; } filewrite_t; static int writer_filewrite_write(writer_t*w, void* data, int len) { filewrite_t * fw= (filewrite_t*)w->internal; w->pos += len; int l = write(fw->handle, data, len); if(l < len) fprintf(stderr, "Error writing to file: %d/%d", l, len); return l; } static void writer_filewrite_finish(writer_t*w) { filewrite_t *mr = (filewrite_t*)w->internal; if(mr->free_handle) close(mr->handle); free(w->internal); memset(w, 0, sizeof(writer_t)); } void writer_init_filewriter(writer_t*w, int handle) { filewrite_t *mr = (filewrite_t *)malloc(sizeof(filewrite_t)); mr->handle = handle; mr->free_handle = 0; memset(w, 0, sizeof(writer_t)); w->write = writer_filewrite_write; w->finish = writer_filewrite_finish; w->internal = mr; w->type = WRITER_TYPE_FILE; w->bitpos = 0; w->mybyte = 0; w->pos = 0; } void writer_init_filewriter2(writer_t*w, char*filename) { #ifdef HAVE_OPEN64 int fi = open64 #else int fi = open #endif (filename, #ifdef O_BINARY O_BINARY| #endif O_WRONLY|O_CREAT|O_TRUNC, 0644); writer_init_filewriter(w, fi); ((filewrite_t*)w->internal)->free_handle = 1; } /* ---------------------------- null writer ------------------------------- */ static int writer_nullwrite_write(writer_t*w, void* data, int len) { w->pos += len; return len; } static void writer_nullwrite_finish(writer_t*w) { memset(w, 0, sizeof(writer_t)); } void writer_init_nullwriter(writer_t*w) { memset(w, 0, sizeof(writer_t)); w->write = writer_nullwrite_write; w->flush = dummy_flush; w->finish = writer_nullwrite_finish; w->internal = 0; w->type = WRITER_TYPE_NULL; w->bitpos = 0; w->mybyte = 0; w->pos = 0; } /* ---------------------------- zlibinflate reader -------------------------- */ typedef struct _zlibinflate { #ifdef HAVE_ZLIB z_stream zs; reader_t*input; unsigned char readbuffer[ZLIB_BUFFER_SIZE]; #endif } zlibinflate_t; #ifdef HAVE_ZLIB static void zlib_error(int ret, char* msg, z_stream*zs) { fprintf(stderr, "%s: zlib error (%d): last zlib error: %s\n", msg, ret, zs->msg?zs->msg:"unknown"); if(errno) perror("errno:"); exit(1); } #endif static int reader_zlibinflate(reader_t*reader, void* data, int len) { #ifdef HAVE_ZLIB zlibinflate_t*z = (zlibinflate_t*)reader->internal; int ret; if(!z) { return 0; } if(!len) return 0; z->zs.next_out = (Bytef *)data; z->zs.avail_out = len; while(1) { if(!z->zs.avail_in) { z->zs.avail_in = z->input->read(z->input, z->readbuffer, ZLIB_BUFFER_SIZE); z->zs.next_in = z->readbuffer; } if(z->zs.avail_in) ret = inflate(&z->zs, Z_NO_FLUSH); else ret = inflate(&z->zs, Z_FINISH); if (ret != Z_OK && ret != Z_STREAM_END) zlib_error(ret, "bitio:inflate_inflate", &z->zs); if (ret == Z_STREAM_END) { int pos = z->zs.next_out - (Bytef*)data; ret = inflateEnd(&z->zs); if (ret != Z_OK) zlib_error(ret, "bitio:inflate_end", &z->zs); free(reader->internal); reader->internal = 0; reader->pos += pos; return pos; } if(!z->zs.avail_out) { break; } } reader->pos += len; return len; #else fprintf(stderr, "Error: swftools was compiled without zlib support"); exit(1); #endif } static int reader_zlibseek(reader_t*reader, int pos) { fprintf(stderr, "Erro: seeking not supported for zlib streams"); return -1; } static void reader_zlibinflate_dealloc(reader_t*reader) { #ifdef HAVE_ZLIB zlibinflate_t*z = (zlibinflate_t*)reader->internal; /* test whether read() already did basic deallocation */ if(reader->internal) { inflateEnd(&z->zs); free(reader->internal); } memset(reader, 0, sizeof(reader_t)); #endif } void reader_init_zlibinflate(reader_t*r, reader_t*input) { #ifdef HAVE_ZLIB zlibinflate_t*z = (zlibinflate_t*)malloc(sizeof(zlibinflate_t)); memset(z, 0, sizeof(zlibinflate_t)); int ret; memset(r, 0, sizeof(reader_t)); r->internal = z; r->read = reader_zlibinflate; r->seek = reader_zlibseek; r->dealloc = reader_zlibinflate_dealloc; r->type = READER_TYPE_ZLIB; r->pos = 0; z->input = input; memset(&z->zs,0,sizeof(z_stream)); z->zs.zalloc = Z_NULL; z->zs.zfree = Z_NULL; z->zs.opaque = Z_NULL; ret = inflateInit(&z->zs); if (ret != Z_OK) zlib_error(ret, "bitio:inflate_init", &z->zs); reader_resetbits(r); #else fprintf(stderr, "Error: swftools was compiled without zlib support"); exit(1); #endif } /* ---------------------------- zlibdeflate writer -------------------------- */ typedef struct _zlibdeflate { #ifdef HAVE_ZLIB z_stream zs; writer_t*output; unsigned char writebuffer[ZLIB_BUFFER_SIZE]; #endif } zlibdeflate_t; static int writer_zlibdeflate_write(writer_t*writer, void* data, int len) { #ifdef HAVE_ZLIB zlibdeflate_t*z = (zlibdeflate_t*)writer->internal; int ret; if(writer->type != WRITER_TYPE_ZLIB) { fprintf(stderr, "Wrong writer ID (writer not initialized?)\n"); return 0; } if(!z) { fprintf(stderr, "zlib not initialized!\n"); return 0; } if(!len) return 0; z->zs.next_in = (Bytef *)data; z->zs.avail_in = len; while(1) { ret = deflate(&z->zs, Z_NO_FLUSH); if (ret != Z_OK) zlib_error(ret, "bitio:deflate_deflate", &z->zs); if(z->zs.next_out != z->writebuffer) { writer->pos += z->zs.next_out - (Bytef*)z->writebuffer; z->output->write(z->output, z->writebuffer, z->zs.next_out - (Bytef*)z->writebuffer); z->zs.next_out = z->writebuffer; z->zs.avail_out = ZLIB_BUFFER_SIZE; } if(!z->zs.avail_in) { break; } } return len; #else fprintf(stderr, "Error: swftools was compiled without zlib support"); exit(1); #endif } void writer_zlibdeflate_flush(writer_t*writer) { #ifdef HAVE_ZLIB zlibdeflate_t*z = (zlibdeflate_t*)writer->internal; int ret; if(writer->type != WRITER_TYPE_ZLIB) { fprintf(stderr, "Wrong writer ID (writer not initialized?)\n"); return; } if(!z) { fprintf(stderr, "zlib not initialized!\n"); return; } z->zs.next_in = 0; z->zs.avail_in = 0; while(1) { ret = deflate(&z->zs, Z_SYNC_FLUSH); if (ret != Z_OK) zlib_error(ret, "bitio:deflate_flush", &z->zs); if(z->zs.next_out != z->writebuffer) { writer->pos += z->zs.next_out - (Bytef*)z->writebuffer; z->output->write(z->output, z->writebuffer, z->zs.next_out - (Bytef*)z->writebuffer); z->zs.next_out = z->writebuffer; z->zs.avail_out = ZLIB_BUFFER_SIZE; } /* TODO: how will zlib let us know it needs more buffer space? */ break; } return; #else fprintf(stderr, "Error: swftools was compiled without zlib support"); exit(1); #endif } static void writer_zlibdeflate_finish(writer_t*writer) { #ifdef HAVE_ZLIB zlibdeflate_t*z = (zlibdeflate_t*)writer->internal; writer_t*output; int ret; if(writer->type != WRITER_TYPE_ZLIB) { fprintf(stderr, "Wrong writer ID (writer not initialized?)\n"); return; } if(!z) return; output= z->output; while(1) { ret = deflate(&z->zs, Z_FINISH); if (ret != Z_OK && ret != Z_STREAM_END) zlib_error(ret, "bitio:deflate_finish", &z->zs); if(z->zs.next_out != z->writebuffer) { writer->pos += z->zs.next_out - (Bytef*)z->writebuffer; z->output->write(z->output, z->writebuffer, z->zs.next_out - (Bytef*)z->writebuffer); z->zs.next_out = z->writebuffer; z->zs.avail_out = ZLIB_BUFFER_SIZE; } if (ret == Z_STREAM_END) { break; } } ret = deflateEnd(&z->zs); if (ret != Z_OK) zlib_error(ret, "bitio:deflate_end", &z->zs); free(writer->internal); memset(writer, 0, sizeof(writer_t)); //output->finish(output); #else fprintf(stderr, "Error: swftools was compiled without zlib support"); exit(1); #endif } void writer_init_zlibdeflate(writer_t*w, writer_t*output) { #ifdef HAVE_ZLIB zlibdeflate_t*z; int ret; memset(w, 0, sizeof(writer_t)); z = (zlibdeflate_t*)malloc(sizeof(zlibdeflate_t)); memset(z, 0, sizeof(zlibdeflate_t)); w->internal = z; w->write = writer_zlibdeflate_write; w->flush = writer_zlibdeflate_flush; w->finish = writer_zlibdeflate_finish; w->type = WRITER_TYPE_ZLIB; w->pos = 0; z->output = output; memset(&z->zs,0,sizeof(z_stream)); z->zs.zalloc = Z_NULL; z->zs.zfree = Z_NULL; z->zs.opaque = Z_NULL; ret = deflateInit(&z->zs, 9); if (ret != Z_OK) zlib_error(ret, "bitio:deflate_init", &z->zs); w->bitpos = 0; w->mybyte = 0; z->zs.next_out = z->writebuffer; z->zs.avail_out = ZLIB_BUFFER_SIZE; #else fprintf(stderr, "Error: swftools was compiled without zlib support"); exit(1); #endif } /* ----------------------- bit handling routines -------------------------- */ void writer_writebit(writer_t*w, int bit) { if(w->bitpos==8) { w->write(w, &w->mybyte, 1); w->bitpos = 0; w->mybyte = 0; } if(bit&1) w->mybyte |= 1 << (7 - w->bitpos); w->bitpos ++; } void writer_writebits(writer_t*w, unsigned int data, int bits) { int t; for(t=0;t> (bits-t-1))&1); } } void writer_resetbits(writer_t*w) { if(w->bitpos) w->write(w, &w->mybyte, 1); w->bitpos = 0; w->mybyte = 0; } unsigned int reader_readbit(reader_t*r) { if(r->bitpos==8) { r->bitpos=0; r->read(r, &r->mybyte, 1); } return (r->mybyte>>(7-r->bitpos++))&1; } unsigned int reader_readbits(reader_t*r, int num) { int t; int val = 0; for(t=0;tmybyte = 0; r->bitpos = 8; } U8 reader_readU8(reader_t*r) { U8 b = 0; if(r->read(r, &b, 1)<1) { fprintf(stderr, "bitio.c:reader_readU8: Read over end of memory region\n"); } return b; } S8 reader_readS8(reader_t*r) { S8 b = 0; if(r->read(r, &b, 1)<1) { fprintf(stderr, "bitio.c:reader_readU8: Read over end of memory region\n"); } return b; } U16 reader_readU16(reader_t*r) { U8 b1=0,b2=0; if(r->read(r, &b1, 1)<1) { fprintf(stderr, "bitio.c:reader_readU16: Read over end of memory region\n"); } if(r->read(r, &b2, 1)<1) { fprintf(stderr, "bitio.c:reader_readU16: Read over end of memory region\n"); } return b1|b2<<8; } U32 reader_readU32(reader_t*r) { U8 b1=0,b2=0,b3=0,b4=0; if(r->read(r, &b1, 1)<1) fprintf(stderr, "bitio.c:reader_readU32: Read over end of memory region\n"); if(r->read(r, &b2, 1)<1) fprintf(stderr, "bitio.c:reader_readU32: Read over end of memory region\n"); if(r->read(r, &b3, 1)<1) fprintf(stderr, "bitio.c:reader_readU32: Read over end of memory region\n"); if(r->read(r, &b4, 1)<1) fprintf(stderr, "bitio.c:reader_readU32: Read over end of memory region\n"); return b1|b2<<8|b3<<16|b4<<24; } float reader_readFloat(reader_t*r) { float f; r->read(r, &f, 4); return f; U8 b1=0,b2=0,b3=0,b4=0; r->read(r, &b1, 1); r->read(r, &b2, 1); r->read(r, &b3, 1); r->read(r, &b4, 1); U32 w = (b1|b2<<8|b3<<16|b4<<24); return *(float*)&w; } double reader_readDouble(reader_t*r) { double f; r->read(r, &f, 8); return f; U8 b[8]; r->read(r, b, 8); U64 w = ((U64)b[0]|(U64)b[1]<<8|(U64)b[2]<<16|(U64)b[3]<<24|(U64)b[4]<<32|(U64)b[5]<<40|(U64)b[6]<<48|(U64)b[7]<<56); return *(double*)&w; } char*reader_readString(reader_t*r) { writer_t g; writer_init_growingmemwriter(&g, 16); while(1) { U8 b = reader_readU8(r); writer_writeU8(&g, b); if(!b) break; } char*string = (char*)writer_growmemwrite_getmem(&g); g.finish(&g); return string; } unsigned int read_compressed_uint(reader_t*r) { unsigned int u = 0; unsigned int b; do { b = reader_readU8(r); u = u<<7|b&0x7f; } while(b&0x80); return u; } int read_compressed_int(reader_t*r) { int i = 0; int b; b = reader_readS8(r); i = b&0x7f; if(b&0x40) i|=0xffffff80; //sign extension if(!(b&0x80)) return i; do { b = reader_readS8(r); i = i<<7|b&0x7f; } while(b&0x80); return i; } void writer_writeString(writer_t*w, const char*s) { int l = strlen(s); char zero = 0; w->write(w, (void*)s, l); w->write(w, &zero, 1); } void writer_writeU8(writer_t*w, unsigned char b) { w->write(w, &b, 1); } void writer_writeU16(writer_t*w, unsigned short v) { unsigned char b1 = v; unsigned char b2 = v>>8; w->write(w, &b1, 1); w->write(w, &b2, 1); } void writer_writeU32(writer_t*w, unsigned long v) { unsigned char b1 = v; unsigned char b2 = v>>8; unsigned char b3 = v>>16; unsigned char b4 = v>>24; w->write(w, &b1, 1); w->write(w, &b2, 1); w->write(w, &b3, 1); w->write(w, &b4, 1); } void writer_writeFloat(writer_t*w, float f) { w->write(w, &f, 4); return; unsigned v = *(unsigned*)&f; unsigned char b1 = v; unsigned char b2 = v>>8; unsigned char b3 = v>>16; unsigned char b4 = v>>24; w->write(w, &b1, 1); w->write(w, &b2, 1); w->write(w, &b3, 1); w->write(w, &b4, 1); } void writer_writeDouble(writer_t*w, double f) { w->write(w, &f, 8); return; unsigned long long v = *(unsigned long long*)&f; unsigned char b1 = v; unsigned char b2 = v>>8; unsigned char b3 = v>>16; unsigned char b4 = v>>24; unsigned char b5 = v>>32; unsigned char b6 = v>>40; unsigned char b7 = v>>48; unsigned char b8 = v>>56; w->write(w, &b1, 1); w->write(w, &b2, 1); w->write(w, &b3, 1); w->write(w, &b4, 1); w->write(w, &b5, 1); w->write(w, &b6, 1); w->write(w, &b7, 1); w->write(w, &b8, 1); } void write_compressed_uint(writer_t*w, unsigned int u) { if(u<0x80) { writer_writeU8(w, u); } else if(u<0x4000) { writer_writeU8(w, u>>7|0x80); writer_writeU8(w, u&0x7f); } else if(u<0x200000) { writer_writeU8(w, u>>14|0x80); writer_writeU8(w, u>>7|0x80); writer_writeU8(w, u&0x7f); } else if(u<0x10000000) { writer_writeU8(w, u>>21|0x80); writer_writeU8(w, u>>14|0x80); writer_writeU8(w, u>>7|0x80); writer_writeU8(w, u&0x7f); } else { writer_writeU8(w, u>>28|0x80); writer_writeU8(w, u>>21|0x80); writer_writeU8(w, u>>14|0x80); writer_writeU8(w, u>>7|0x80); writer_writeU8(w, u&0x7f); } } void write_compressed_int(writer_t*w, int i) { if(i>=-0x40 && i<0x40) { writer_writeU8(w, i&0x7f); } else if(i>=-0x2000 && i<0x2000) { writer_writeU8(w, (i>>7)&0x7f|0x80); writer_writeU8(w, i&0x7f); } else if(i>=-0x100000 && i<0x100000) { writer_writeU8(w, (i>>14)&0x7f|0x80); writer_writeU8(w, (i>>7)&0x7f|0x80); writer_writeU8(w, (i)&0x7f); } else if(i>=-0x8000000 && i<0x8000000) { writer_writeU8(w, (i>>21)&0x7f|0x80); writer_writeU8(w, (i>>14)&0x7f|0x80); writer_writeU8(w, (i>>7)&0x7f|0x80); writer_writeU8(w, (i)&0x7f); } else { writer_writeU8(w, (i>>28)&0x7f|0x80); writer_writeU8(w, (i>>21)&0x7f|0x80); writer_writeU8(w, (i>>14)&0x7f|0x80); writer_writeU8(w, (i>>7)&0x7f|0x80); writer_writeU8(w, (i)&0x7f); } }