Artifact 842e03a149869ad3b61429bba475e4da3d026acfdaf3615e2e5f665671c7dcbd:
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r37/lisp/csl/cslbase/mpipack.c
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2011-09-02 18:13:33
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/* * mpipack.c * * Packing stuff into buffers for cross-PE communication */ /* * This code may be used and modified, and redistributed in binary * or source form, subject to the "CCL Public License", which should * accompany it. This license is a variant on the BSD license, and thus * permits use of code derived from this in either open and commercial * projects: but it does require that updates to this code be made * available back to the originators of the package. * Before merging other code in with this or linking this code * with other packages or libraries please check that the license terms * of the other material are compatible with those of this. */ /* Signature: 2d67b138 18-Apr-2002 */ #ifndef header_mpipack_h #define header_mpipack_h /* Code to pack a Lisp cons-structure into a linear buffer and retrieve it. */ /* These are the calls to do it; think of them as * void pack_object(Lisp_Object a); * and Lisp_Object unpack_object(); */ #define pack_object(a) (mpi_pack_buffer = 0, \ mpi_pack_position = 0, \ mpi_pack_size = 0, \ pack_cell(a) ) /* Once a message has been packed, it may be sent using mpi_pack_buffer and * mpi_pack_position as the "buf" and "count" fields, and MPI_PACKED as the * Datatype. */ /* mpi_pack_buffer should be set to the recieve buffer before calling this. */ #define unpack_object() (mpi_pack_position = 0, unpack_cell()) /* There must be a buffer to put them in. * It will grow by MPI_BUFFER_BLOCK bytes at a time, as needed. */ static char* mpi_pack_buffer = 0; static int mpi_pack_size = 0; #define MPI_BUFFER_BLOCK 1024 /* position marker for MPI_(Un)Pack */ static int mpi_pack_position = 0; /* THE REST OF THIS FILE IS PRIVATE */ /* Function to check the size of the buffer, and grow it if necessary. * check_buffer(n) will make sure that there are n free bytes in the buffer. */ static void default_check_buffer(int n) { if (mpi_pack_size - mpi_pack_position < n){ mpi_pack_size += MPI_BUFFER_BLOCK; mpi_pack_buffer = (char*)realloc( mpi_pack_buffer, mpi_pack_size); if (mpi_pack_buffer == 0) aerror0("Not enough memory for MPI buffer."); } } static char* mpi_buffer_bottom; static int mpi_pack_offset; static int mpi_real_size; static void scatter_check_buffer(int n) { if (mpi_real_size - ( (mpi_pack_buffer - mpi_buffer_bottom) + mpi_pack_position ) < n) { mpi_real_size += MPI_BUFFER_BLOCK; mpi_pack_size += MPI_BUFFER_BLOCK; mpi_buffer_bottom = (char*)realloc( mpi_buffer_bottom, mpi_real_size); if (mpi_buffer_bottom == 0) aerror0("Not enough memory for MPI buffer."); mpi_pack_buffer = mpi_buffer_bottom + mpi_pack_offset; } } typedef void buffptr(int); static buffptr *check_buffer = default_check_buffer; /* MPI insists on using pointers everywhere, so here are things to point at. */ static char mpi_packing_symbols[] = {' ', '(', ')', '.', ','}; static Lisp_Object mpi_pack_number; static char mpi_pack_char; /* The MPI function calls for packing */ /* Think of this as void pack_32bit(Lisp_Object),but it actually returns int */ /* The name is to remind one that the size is fixed for now. It would be * better to conditionally define a type of either MPI_LONG or MPI_LONG_LONG * depending on the size of Lisp objects. This may happen eventually. */ #define pack_32bit(n) (check_buffer(4), \ MPI_Pack(&(n), 1, MPI_UNSIGNED_LONG, \ mpi_pack_buffer, mpi_pack_size, \ &mpi_pack_position, MPI_COMM_WORLD) ) /* The functions to flatten the list structures, according to a simple grammar*/ static void pack_list(Lisp_Object a); static void pack_cell(Lisp_Object a); static void pack_atom(Lisp_Object a) { if (is_fixnum(a)) pack_32bit(a); else if (is_bfloat(a)) { Header* h = &flthdr(a); if (type_of_header(*h) == TYPE_DOUBLE_FLOAT){ pack_32bit(*h); check_buffer(sizeof(double)); MPI_Pack( &(((Double_Float*)h)->f), 1, MPI_DOUBLE, mpi_pack_buffer, mpi_pack_size, &mpi_pack_position, MPI_COMM_WORLD); } else err_printf("Unsupported float type %x\n",type_of_header(*h)); } else if (is_numbers(a)) { Header* h = &numhdr(a); int size = length_of_header(*h) - sizeof(Header); if (type_of_header(*h) == TYPE_BIGNUM){ pack_32bit(*h); /* Bignums are arrays of 32-bit things; we'll have to pack them as such to avoid byte-ordering problems. */ check_buffer(size); MPI_Pack(h+1, size >> 2, MPI_UNSIGNED_LONG, mpi_pack_buffer, mpi_pack_size, &mpi_pack_position, MPI_COMM_WORLD); } else err_printf("Unsupported number type %x\n",type_of_header(*h)); } else if (is_vector(a)) { Header* h = &vechdr(a); switch(type_of_header(*h)){ case TYPE_STRING: pack_32bit(*h); { int size = length_of_header(*h) - sizeof(Header); check_buffer(size); MPI_Pack(h+1, size, MPI_CHAR, mpi_pack_buffer, mpi_pack_size, &mpi_pack_position, MPI_COMM_WORLD); } break; case TYPE_SIMPLE_VEC: case TYPE_ARRAY: case TYPE_STRUCTURE: pack_32bit(*h); { int i; for (i = 0; i < (length_of_header(*h)>>2) - 1; ++i) pack_cell(elt(a,i)); } break; default: err_printf("Unsupported vector type %x\n",type_of_header(*h)); } } else if (is_symbol(a)) { Symbol_Head* h = (Symbol_Head*)( (char*)a-TAG_SYMBOL); Header My_Head = TYPE_SYMBOL; pack_32bit(My_Head); pack_atom(h->pname); /* This is a string. */ } else err_printf("Unsupported type %d\n",a & TAG_BITS); } /* again, think of void pack_xxxx(void); (but actually returning int) */ #define pack_space() ( check_buffer(1), \ MPI_Pack(mpi_packing_symbols, 1, MPI_CHAR, \ mpi_pack_buffer, mpi_pack_size, \ &mpi_pack_position, MPI_COMM_WORLD) ) #define pack_open() ( check_buffer(1), \ MPI_Pack(mpi_packing_symbols+1, 1, MPI_CHAR, \ mpi_pack_buffer, mpi_pack_size, \ &mpi_pack_position, MPI_COMM_WORLD) ) #define pack_close() ( check_buffer(1), \ MPI_Pack(mpi_packing_symbols+2, 1, MPI_CHAR, \ mpi_pack_buffer, mpi_pack_size, \ &mpi_pack_position, MPI_COMM_WORLD) ) #define pack_dot() ( check_buffer(1), \ MPI_Pack(mpi_packing_symbols+3, 1, MPI_CHAR, \ mpi_pack_buffer, mpi_pack_size, \ &mpi_pack_position, MPI_COMM_WORLD) ) #define pack_comma() ( check_buffer(1), \ MPI_Pack(mpi_packing_symbols+4, 1, MPI_CHAR, \ mpi_pack_buffer, mpi_pack_size, \ &mpi_pack_position, MPI_COMM_WORLD) ) static void pack_cell(Lisp_Object a) { /* In Common mode, consp needs nil defined. I don't want to * clutter the stack with unnecessary variables, so I don't * define it in CSL mode. */ #ifdef COMMON Lisp_Object nil = C_nil; #endif if (consp(a)) pack_open(), pack_cell(qcar(a)), pack_list(qcdr(a)); else pack_space(), pack_atom(a); } static void pack_list(Lisp_Object a) { #ifdef COMMON Lisp_Object nil = C_nil; #endif if (consp(a)) pack_comma(), pack_cell(qcar(a)), pack_list(qcdr(a)); else if (a == C_nil) pack_close(); else pack_dot(), pack_atom(a); } /* Now unpacking... */ /* The MPI calls */ /* Think of these as char unpack_char(); Lisp_Object unpack_32bit(); */ #define unpack_char() (MPI_Unpack(mpi_pack_buffer, mpi_pack_size, \ &mpi_pack_position, &mpi_pack_char, 1, \ MPI_CHAR, MPI_COMM_WORLD), \ mpi_pack_char) #define unpack_32bit() (MPI_Unpack(mpi_pack_buffer, mpi_pack_size, \ &mpi_pack_position, &mpi_pack_number, 1, \ MPI_UNSIGNED_LONG, MPI_COMM_WORLD), \ mpi_pack_number) /* The functions to parse the linear buffer */ static Lisp_Object unpack_list(void); static Lisp_Object unpack_cell(void); static Lisp_Object unpack_atom() { Lisp_Object a = unpack_32bit(); if (is_fixnum(a)) return a; switch (type_of_header(a)){ int size; case TYPE_DOUBLE_FLOAT: size = length_of_header(a); a = getvector(TAG_BOXFLOAT,TYPE_DOUBLE_FLOAT,size); MPI_Unpack(mpi_pack_buffer, mpi_pack_size, &mpi_pack_position, /* How ugly is this? */ &(((Double_Float*)((char*)a - TAG_BOXFLOAT))->f), 1, MPI_DOUBLE, MPI_COMM_WORLD); return a; case TYPE_BIGNUM: size = length_of_header(a); a = getvector(TAG_NUMBERS,type_of_header(a),size); MPI_Unpack(mpi_pack_buffer,mpi_pack_size,&mpi_pack_position, (char*)a - TAG_NUMBERS + CELL, (size - sizeof(Header))>>2, MPI_UNSIGNED_LONG, MPI_COMM_WORLD); return a; case TYPE_STRING: size = length_of_header(a); a = getvector(TAG_VECTOR,TYPE_STRING,size); MPI_Unpack(mpi_pack_buffer, mpi_pack_size, &mpi_pack_position, (char*)a - TAG_VECTOR + CELL, size - sizeof(Header), MPI_CHAR, MPI_COMM_WORLD); return a; case TYPE_SIMPLE_VEC: case TYPE_ARRAY: case TYPE_STRUCTURE: size = length_of_header(a); push(getvector(TAG_VECTOR,type_of_header(a),size)); { int i; for (i=0; i<(size>>2)-1; ++i) elt(*stack,i) = unpack_cell(); if (!(i&1)) elt(*stack,i) = C_nil; } return my_pop(); case TYPE_SYMBOL: { Lisp_Object nil = C_nil; a = unpack_atom(); /* Name in a string */ return iintern(a, length_of_header(vechdr(a))-CELL, CP, 0); } default: err_printf("Unknown header type %d", type_of_header(a)); } } static Lisp_Object unpack_cell(void) { switch (unpack_char()){ case ' ': return unpack_atom(); case '(': return unpack_list(); default : {err_printf("Syntax error in message.\n"); return C_nil;} } } static Lisp_Object unpack_list(void) { push(unpack_cell()); switch (unpack_char()){ case ')': return cons(my_pop(),C_nil); case '.': {Lisp_Object tail = unpack_atom(); return cons(my_pop(), tail);} case ',': {Lisp_Object tail = unpack_list(); return cons(my_pop(), tail);} default : {err_printf("Syntax error in message.\n"); return (my_pop());} } } #endif /* end of mpipack.c */