// Problems: // - check that an internal reference is created for reference to an entry node if // it is the current entry node. // - garbage collection with DETERMINE_ENTRY_NODES has not been test. #define EXTRAATJE #define CONVERT_BUILD_LAZY_BLOCKS // should also change #include "globals.h" #include "gts_debug.c" #include "gts_type_object_type.h" #ifdef COLLECT_AND_RENUMBER_EXTERNAL_TYPE_REFERENCES #else # error "dfkfklf" #endif #define BUILD_DESCRIPTOR_BITSET // buils a bitset (1 bit = word containing descriptor ptr or not #define CONVERT_LAZY_RUN_TIME_ID // handles lazy type references #define LAZY_DYNAMICS // handles build__block and build_lazy_block closures #define LAZY_DYNAMICS_2 // compute descriptor replaces build_blocks by build_lazy_blocks #define LAZY_DYNAMICS_3 // ignore build_blocks (should also ignore build_lazy_blocks) #define COPIED_DYNAMICS #define DYNAMIC_STRINGS // store dynamic strings #define USE_CGTSA_AND_CGTSR #define USE_USED_CODE_LIBRARY_INSTANCE_ARRAY //#define DEBUG // includes #define MAKE_DUS_SYMBOLIC // should be *always* be defined, !CHECKED! #define EXTEND_DUS_WITH_LIBARY_NUMBER // !CHECKED! #include "global_registers.h" #include "gts_stack.c" #include "extra_heap.c" #include "colour.c" #include "descriptor_usage.c" #include "gts_need_debug.c" #include "gts_build_block.h" #include "gts_gdi.c" #define DETERMINE_ENTRY_NODES // extra pass to determine entry nodes // Macro's which should always be defined. #define EXTRA_HEAP_ENTRY #define COMPUTE_TYPETABLE_ID_FROM_MODULE_ID // !CHECKED! #ifdef COLOUR_GRAPH # define N_LB_ENTRIES 8 // n entries = 2 ^ N_LB_ENTRIES_EXP # define N_LB_ENTRIES_EXP 3 # define LB_ENTRY_BSIZE 4 // entry size = 2 ^ LB_ENTRY_BSIZE_EXP (in bytes) # define LB_ENTRY_BSIZE_EXP 2 # define MAKE_ID(x) x##_DL // data # define MAKE_ID_NDL(x) x##_fixed_DL // no stack # define MAKE_ID_UDL(x) x##_unfixed_DL // unfixed stack # define MAKE_ID_FDL(x) x##_fixed_DL // fixed stack # define BOTH_FIXEDNESS # include "LinkedBlock.c" # define N_LB_ENTRIES 8 // n entries = 2 ^ N_LB_ENTRIES_EXP # define N_LB_ENTRIES_EXP 3 # define NOT_A_POWER_OF_TWO_ENTRY_SIZE # define LB_ENTRY_WSIZE 5 //5 # define MAKE_ID(x) x##_EN // data # define MAKE_ID_NEN(x) x##_fixed_EN // no stack # define MAKE_ID_UEN(x) x##_unfixed_EN // unfixed stack # define MAKE_ID_FEN(x) x##_fixed_EN // fixed stack # define BOTH_FIXEDNESS // used in both unfixed and fixed contents # define MAKE_ID_EN(x) x##_EN # include "LinkedBlock.c" // Format EN: // word 0: descP // word 1 (1234): // - 12 offset array index i.e. id of entry node // - 34 except for two least significant bits represents the block_id in offset array // word 2: // Offset from block start to the entry node // word 3: unused (might come in handy for nodeP) # define EN_DESCP 0 # define EN_COLOUR 4 // EN/SN-node, EN_COLOUR (1234): 1 = reserved # define ENSN_COLOUR_GET_COLOUR 0x00ffffff // 0x3fffffff// 1234, 12 reserverd, 34 = colour // byte 1, bit 4: set iff EN-node otherwise it is an SN-node # define ENSN_COLOUR_SET_EN_BIT 0x80000000 # ifdef DETERMINE_ENTRY_NODES // byte 1, bit 3: set iff EN/SN-node has already been visited, used in 2nd pass (determination of EN-nodes) # define ENSN_COLOUR_ALREADY_VISITED_MASK 0x40000000 // Multiple combinations of bits # define ENSN_COLOUR_EN_BIT_AND_COLOUR 0xbfffffff # endif # define EN_NODE_INDEX 8 # define EN_BLOCK_OFFSET 12 # define EN_NODEP 12 // used in pass 2 (determine en nodes) # define EN_NODE_LIST 16 // used in pass 3 (copying) # define EN_NODE 16 // first used in pass 4 //3 // BlockInfo # define INITIAL_BLOCK_N 4 // 0 is reservered for top-level dynamic; two least significant bits are unused # define BLOCK_INCREASEMENT 4 # define N_LB_ENTRIES 8 // n entries = 2 ^ N_LB_ENTRIES_EXP # define N_LB_ENTRIES_EXP 3 # define NOT_A_POWER_OF_TWO_ENTRY_SIZE # define LB_ENTRY_WSIZE 3 # define MAKE_ID(x) x##_BI # define BI_INFO 0 # define BI_N_EN_NODES 4 # define BI_SIZE 8 # define MAKE_ID_FBI(x) x##_fixed_BI // fixed stack # define FIXED # define MAKE_ID_BI(x) x##_BI # include "LinkedBlock.c" # ifdef DYNAMIC_STRINGS # define N_LB_ENTRIES 8 // n entries = 2 ^ N_LB_ENTRIES_EXP # define N_LB_ENTRIES_EXP 3 # define NOT_A_POWER_OF_TWO_ENTRY_SIZE # define LB_ENTRY_WSIZE 3 //5 # define MAKE_ID(x) x##_DS // data # define MAKE_ID_NDS(x) x##_fixed_DS // no stack # define MAKE_ID_UDS(x) x##_unfixed_DS // unfixed stack # define MAKE_ID_FDS(x) x##_fixed_DS // fixed stack # define BOTH_FIXEDNESS # define MAKE_ID_DS(x) x##_DS # include "LinkedBlock.c" # endif // DYNAMIC_STRINGS # include "gts_undo.c" # ifdef CONVERT_LAZY_RUN_TIME_ID // also change RunTimeIDW in DynamicLinkerInterface # define RTID_LAST_FIELD RTID_ASSIGNED_DISK_ID # define RTID_SIZE (RTID_LAST_FIELD + 4) # define N_LB_ENTRIES 8 // n entries = 2 ^ N_LB_ENTRIES_EXP # define N_LB_ENTRIES_EXP 3 # define NOT_A_POWER_OF_TWO_ENTRY_SIZE # define LB_ENTRY_WSIZE 3 # define MAKE_ID(x) x##_RTID // data # define MAKE_ID_NRTID(x) x##_fixed_RTID // no stack # define MAKE_ID_URTID(x) x##_unfixed_RTID // unfixed stack # define MAKE_ID_FRTID(x) x##_fixed_RTID // fixed stack # define BOTH_FIXEDNESS # define MAKE_ID_RTID(x) x##_RTID # include "LinkedBlock.c" # include "gts_runtime_id.h" # endif # ifdef COMPUTE_TYPETABLE_ID_FROM_MODULE_ID # include "gts_range_id.c" # endif #endif #include "gts_lazy_dynamic_reference.h" #include "gts_build_lazy_block_id.c" #ifdef USE_CGTSA_AND_CGTSR # include "gts_copy_graph_to_string_arguments.h" # include "gts_copy_graph_to_string_results.h" #endif // ------------------------------------------------------------------------------------------- // HEADER // // Notice that part of the header is shared by different applications // // To add a new field: // 1. add the field either in the common section or just for dumpDynamic // 2. if its the last field, then mention it as the last field by replacing it in the // HEADER_SIZE-macro. (just below) // Shared by: // StdDynamicLowLevelInterface.{icl,dcl}; build_dynamic_header // in application dumpDynamic & dynamic linker // OBSOLETE: // - StdDynamic.icl (StdEnv) // - read_dynamic.icl (dumpDynamic) // - dynamics.icl (dumpDynamic,dynamic linker) // // Probably only by StdDynamicLowLevelInterface.icl #define HEADER_SIZE_OFFSET 8 // header size (in bytes) #define VERSION_NUMBER_OFFSET 12 // version (major,minor) // little or big endian format? #define GRAPH_OFFSET 16 // graph offset #define GRAPH_SIZE 20 // graph size #define BLOCK_TABLE_OFFSET 24 #define BLOCK_TABLE_SIZE 28 #define DYNAMIC_RTS_INFO_OFFSET 32 // info from dynamic rts; filled in by StdDynamic.icl #define DYNAMIC_RTS_INFO_SIZE 36 // End sharing for StdDynamic.icl #define STRINGTABLE_OFFSET 40 // stringtable offset #define STRINGTABLE_SIZE 44 // stringtable size #define DESCADDTRESTABLE_OFFSET 48 // descriptor address table offset #define DESCADDRESSTABLE_SIZE 52 // descriptor address table size #define N_NODES 56 // n_dynamics #define DESCRIPTOR_BITSET_OFFSET 60 #define DESCRIPTOR_BITSET_SIZE 64 #define HEADER_SIZE (DESCRIPTOR_BITSET_SIZE-4) //((last_field + 4) - 8)=last_field-4 //32 #define HEADER_SIZE_IN_WORDS (HEADER_SIZE / 4) // in words // Descriptor for graph_to_string function // called by writeDynamic .data #ifdef COMPUTE_ENCODED_GRAPH_SIZE encoded_graph_size: .long 0 #endif #ifdef BUILD_DESCRIPTOR_BITSET descriptor_bitset_start: .long 0 descriptor_bitset_end: .long 0 #endif #ifdef DEBUG nth_call: .long 0 #endif retry_after_gc: .long 0 type_string_ptr: .long 0 m__StdDynamic: .long 10 .ascii "StdDynamic" .byte 0,0 .align 4 .long m__StdDynamic .align 4 .long CLEAN_dcopy_graph_to_string+2 .word 0 .word 1 .globl CLEAN_dcopy_graph_to_string CLEAN_dcopy_graph_to_string: .word 0 .word 0 .long CLEAN_lcopy_graph_to_string .word 1 .word 8 i_133: l_39: .long 23 .ascii "copy_graph_to_st" .ascii "ring_OK" .byte 0 .align 4 test_string: .ascii "test_string" .byte 0 // Global variables across passes .align 4 t_stackP: .long 0 initfree: .long 0 // initial free words (4 bytes) // backup variables ecx_backup: .long 0 edx_backup: .long 0 old_heap_pointer: .long 0 // %edi before encoding started root_node: .long 0 // graph to be encoded type_table_usage: .long 0 range_table: .long 0 #ifdef USE_USED_CODE_LIBRARY_INSTANCE_ARRAY used_code_library_instance_array: .long 0 #endif esp_backup: .long 0 esi_backup: .long 0 // ------------------------------------------------------------------------------------------- // .text .align 4 .text .align 4 CLEAN_lcopy_graph_to_string: cmpl end_b_stack,%esp jb stack_overflow call ea11 cmpl end_heap,%edi jae i_408 i_409: movl $ CLEAN_rWrap+2,(%edi) movl %ecx,4(%edi) movl %edi,%ecx addl $8,%edi ret i_408: call collect_1 jmp i_409 ea11: testb $2,(%ecx) jne e_44 cmpl end_a_stack,%esi jae stack_overflow call (%ecx) e_44: movl 4(%ecx),%ecx // pass1 copy__graph__to__string__0x00010101: #ifdef DEBUG_STARTUP save_regs pushl %ecx pushl $startup_str call _w_print_string addl $4,%esp call _w_print_int addl $4,%esp cmpl $0,retry_after_gc je 1f movl $0,retry_after_gc pushl $startup_gc_retry call _w_print_string addl $4,%esp 1: pushl $startup_underline_str call _w_print_string addl $4,%esp restore_regs #endif #ifdef DEBUG incl nth_call #endif #ifdef DYNAMIC_STRINGS call init_lazy_block_id #endif /* ** Warning: ** This function needs at least some space to operate. Because the run-time system ** probably uses memory both before and after the call, not enough memory will ** cause an access violation. ** called by the Clean and the garbage collector */ // backup state; DO_NOT_CHANGE ... #ifdef USE_CGTSA_AND_CGTSR movl %ecx,ecx_backup # define temp %eax movl CGTSA_DYNAMIC(%ecx),temp // find root movl temp,root_node movl 8(%ecx),%edx // get arg block movl CGTSA_TYPE_LIBRARY_INSTANCES(%edx),temp // copy type library instances array movl temp,type_table_usage # ifdef USE_USED_CODE_LIBRARY_INSTANCE_ARRAY movl CGTSA_CODE_LIBRARY_INSTANCES(%edx),temp // copy type library instances array movl temp,used_code_library_instance_array # endif movl CGTSA_RANGE_TABLE(%edx),temp // copy range table movl temp,range_table # undef temp #else movl %ecx,type_table_usage movl %edx,root_node # define temp %eax movl -4(%esi),temp movl temp,range_table # undef temp #endif pushl %esi // backup A-stack pointer movl %esp,esp_backup // backup esp movl %esi,esi_backup // backup esi movl heapP,old_heap_pointer // backup heap pointer // compute free space movl end_heap,free leal 32(free),free subl heapP,free // free = stackP - heapP (in bytes) shrl $2,free // free /= 4 (in longs) movl free,initfree // initfree = initial amount of memory available // ... DO_NOT_CHANGE (The garbage collector handler depends upon correct initialization) #ifdef COLOUR_GRAPH _set_default_undo_handler // After the first pass, the stack size will be fixed but the second pass which deletes // indirections in SN-nodes traverses the graph as a whole in contrast to the first // colouring pass which traverses the graph on a dynamic base. // However, the graph has almost been traversed completely because the top-level dynamic // has been traversed. Additional 8 bytes for its two arguments are needed, to increase // the maximum stack size. // At label copy_done_colouring_finished the stack is enlarged by the size of the two // arguments of the top-level dynamic by subtracting 2 * 4 bytes from the StackTop. In // this way the stack is always big enough. subl $2,free js undo_handler #endif // initialize stack movl end_heap,stackP leal 32(stackP),stackP // end_heap + 32 is invalid; thus 32 - 4 = 28 movl stackP,extraheapBottom movl stackP,extraP movl stackP,stackBottom movl stackP,stackTop subl $(2 + HEADER_SIZE_IN_WORDS),free js undo_handler movl $__STRING__+2,(heapP) // store STRING descriptor movl $0,4(heapP) // string length is zero leal ((2 * 4) + HEADER_SIZE)(heapP),heapP movl %ecx,nodeP // top node of graph to be encoded #ifdef CONVERT_LAZY_RUN_TIME_ID call MAKE_ID_NRTID(lb_init) #endif #ifdef COLOUR_GRAPH call MAKE_ID_NSN(lb_init) call MAKE_ID_NDL(lb_init) jmp start_pass1 #else # define ML_COPY(x) x##_1 jmp ML_COPY(copy_next_node_in_nodeP) // pass 1; COPY # define ML(x) x##_1 # define EXIT_LABEL copy_done # define ENTRY_LABEL copy_next_node_1 # define ENTRY_LABEL_NODEP copy_next_node_in_nodeP_1 # define UNFIXED_STACK # define COPY_PASS # include "gts_copy.c" # undef COPY_PASS # undef EXIT_LABEL #endif // -------------------------------------------------------------------------------------------------------- // 2nd pass .data .align 4 function_name_list: .long 0 module_name_list: .long 0 n_nodes: .long 0 #include "prefixes.h" #ifdef COLOUR_GRAPH .align 4 .data .align 4 s_copy_done: .long __STRING__+2 .long 9 .ascii "copy_done" // 012345678 .byte 0 .byte 0 .byte 0 .byte 0 s_interleaved_subcomponents: .long __STRING__+2 .long 66 .ascii "graph_to_string ERROR: interleaved subcomponents are unimplemented" // 012345678901234567890123456789012345678901234567890123456789012345 .byte 0 .byte 0 .byte 0 .byte 0 .align 4 debug_count: .long 0 counter: .long 0 en_list_base_address: .long 0 .data .align 4 blocks_are_not_successive: .long __STRING__+2 .long 117 // .ascii "(graph_to_string; internal error) blocks are not successive" // 012345678901234567890123456789012345678901234567890123456789012345 // 0 1 2 3 4 5 .ascii "(graph_to_string.c; internal error; blocks are not successive): pa" .ascii "ss the HyperStrictEvaluation-option to WriteDynamic" .byte 0 .byte 0 .byte 0 .byte 0 .align 4 build_block_cannot_be_stored: .long __STRING__+2 .long 72 // 012345678901234567890123456789012345678901234567890123456789012345 // 0 1 2 3 4 5 .ascii "(graph_to_string.c; internal error; build_block-closure cannot be " .ascii "stored." .byte 0 .byte 0 .byte 0 .byte 0 .align 4 counter_backup: .long 0 .align 4 current_colour: .long 0 block_n: .long 0 // points to free block number old_heapP: .long 0 // point to start address of block # ifdef EXTEND_DESCRIPTOR_USAGE_TABLE dus_entry_bsize: // size of descriptor usage set-entry .long 0 // adapt also function read_descriptor_usage_table in StdDynamicLowLevelInterface.icl # ifdef EXTEND_DUS_WITH_LIBARY_NUMBER // fixed part: # define DUS_DESC_ADDRESS_ENTRY 0 # define DUS_LIBRARY_NUMBER 4 # define DUS_FIXED_ENTRY_BSIZE (DUS_LIBRARY_NUMBER + 4) # define DUS_FIXED_ENTRY_WSIZE (DUS_FIXED_ENTRY_BSIZE / MACHINE_WORD_BSIZE) // variable part: # define DUS_SET 8 # else // fixed part: # define DUS_DESC_ADDRESS_ENTRY 0 # define DUS_FIXED_ENTRY_BSIZE (DUS_DESC_ADDRESS_ENTRY + 4) # define DUS_FIXED_ENTRY_WSIZE (DUS_FIXED_ENTRY_BSIZE / MACHINE_WORD_BSIZE) // variable part: # define DUS_SET 4 # endif // EXTEND_DUS_WITH_LIBARY_NUMBER # endif // EXTEND_DESCRIPTOR_USAGE_TABLE #endif // COLOUR_GRAPH // ------------------------------------------------------------- // pass2 .data ptr_to_dynamic_to_be_added: .long 0 stored_ptr_to_dynamic: .long 0 #ifdef COPIED_DYNAMICS current_dynamic_node: .long 0 #endif .text #include "gts_colour_graph.c" reset_colour_table_entry: movl $0,(%ecx) // should be initialized at zero ret copy_done_no_top_level_dynamic: int3 jmp copy_done_no_top_level_dynamic // PASS 1: colour graph copy_done: start_pass1: #ifdef DEBUG call need_debug movl root_node,nodeP #endif #ifdef COLOUR_GRAPH call MAKE_ID_NEN(lb_init) // initialize Entry Node (EN) array # define en_node %ecx movl root_node,nodeP call MAKE_ID_NEN(lb_alloc_entry) movl (nodeP),descP movl descP,EN_DESCP(en_node) movl $ TOPLEVEL_COLOUR,EN_COLOUR(en_node) // update root node (from this point on: only U and F permitted) leal 1(en_node),en_node movl en_node,(nodeP) # undef en_node _set_undo_handler $undo_colouring // colour rest of graph cmpl $ CLEAN_rDynamicTemp+2,descP jne copy_done_no_top_level_dynamic call MAKE_ID_UDL(lb_alloc_entry) // add top level dynamic to dynamic list movl nodeP,(%ecx) call init_colour_table // initialize colour table # define counter %ecx # define limit %ebx movl $1,limit movl $0,counter // counter initialized at zero copy_done_loop: pushl limit movl counter,counter_backup call MAKE_ID_UDL(lb_index_of_entry) movl (%ecx),nodeP // nodeP is a DynamicTemp node # ifdef COPIED_DYNAMICS movl nodeP,current_dynamic_node # endif // colour value call MAKE_ID_UCT(lb_size) movl %ecx,previous_colour_combinations pushl 8(nodeP) // backup type node movl 4(nodeP),nodeP // current node is value node movl $ reset_colour_table_entry,%ecx call MAKE_ID_UCT(lb_map_array) // reset colour table call visit_nodes_from_nodeP // colour it // colour type call MAKE_ID_UCT(lb_size) movl %ecx,previous_colour_combinations popl nodeP movl $ reset_colour_table_entry,%ecx call MAKE_ID_UCT(lb_map_array) // reset colour table call visit_nodes_from_nodeP // colour it movl counter_backup,counter popl limit cmpl $0,counter jne limit_does_not_change_any_more pushl counter call MAKE_ID_UDL(lb_size) // n_dynamics movl %ecx,limit popl counter # ifdef DEBUG_COLOURING save_regs pushl $n_dynamics_str call _w_print_string addl $4,%esp call MAKE_ID_UDL(lb_size) // n_dynamics pushl %ecx call _w_print_int addl $4,%esp pushl $'\n' call _w_print_char addl $4,%esp restore_regs # endif limit_does_not_change_any_more: incl counter cmpl counter,limit jne copy_done_loop # undef counter # undef limit movl MAKE_ID_SN(lb_root),%eax # ifdef DEBUG call need_debug # endif // -------------------------------------------------------------------------------------- // PASS 2: determing entry nodes copy_done_colouring_finished: // The 8 bytes have already been reserved during initialization. It is mainly // done for making the undo_colouring-routine more simple. subl $8,stackTop # define sh_entry descP # undef sh_entry movl $ reset_colour_table_entry,%ecx call MAKE_ID_FCT(lb_map_array) // reset colour table movl $0,%ecx call MAKE_ID_FEN(lb_index_of_entry) # define entry_node %ecx orl $ ENSN_COLOUR_SET_EN_BIT,EN_COLOUR(entry_node) // mark as entry node movl $0,EN_NODE_INDEX(entry_node) # ifndef DETERMINE_ENTRY_NODES movl $ ((2 * 4) + HEADER_SIZE),EN_BLOCK_OFFSET(entry_node) # else # define temp nodeP movl root_node,nodeP movl nodeP,EN_NODEP(entry_node) // NEW!!! set nodeP to be used in pass 2 # undef temp # endif # undef entry_node movl $ INITIAL_BLOCK_N,block_n // initialize block_n call MAKE_ID_FBI(lb_init) // assumption: at least one dynamic # define temp2 %ecx movl root_node,nodeP // nodeP = root nodeP // set colour of root dynamic movl $ 0,temp2 call MAKE_ID_FEN(lb_index_of_entry) movl EN_COLOUR(temp2),temp2 andl $ ENSN_COLOUR_GET_COLOUR,temp2 movl temp2,current_colour # ifdef DETERMINE_ENTRY_NODES # ifdef COMPUTE_TYPETABLE_ID_FROM_MODULE_ID call init_range_id # endif # include "gts_determine_entry_nodes.c" # else # include "gts_old_copy.c" # endif // -------------------------------------------------------------------------------------- copy_equally_coloured_nodes_finished: # ifdef DEBUG_BLOCK_COPYING save_regs pushl $end_pass_block_copying call _w_print_string addl $4,%esp restore_regs # endif # ifdef DEBUG2 int3 # endif # ifdef COMPUTE_TYPETABLE_ID_FROM_MODULE_ID call restore__Module_descriptors # endif movl heapP,graph_end // backup end of graph encoding # ifdef BUILD_DESCRIPTOR_BITSET # define temp %eax movl heapP,temp subl graph_start,temp // encoded graph size (in bytes; always multiple of 4 bytes) shrl $2,temp // encoded graph size (in words) addl $31,temp shrl $5,temp // bitmapped graph size subl temp,free // reserve heap for bitmapped graph size js undo_handler movl heapP,descriptor_bitset_start 0: // clear, initially no descriptors but there are of course movl $0,(heapP) // always more than one. addl $4,heapP decl temp jnz 0b # undef temp movl heapP,descriptor_bitset_end # endif # define temp nodeP call MAKE_ID_FBI(lb_size) // # blocks allocated + allocated root block movl block_n,temp shrl $2,temp cmpl %ecx,temp je 0f // I think blocks are never interleaved because after the first pass it is // known which nodes belong to a block. Equally coloured nodes are encoded // together. // Using DETERMINE_ENTRY_NODES blocks are never interspersed with other // blocks 1: int3 movl MAKE_ID_EN(lb_root),%ebx movl root_node,%eax movl $ blocks_are_not_successive,%ecx jmp abort 0: # undef temp # define temp nodeP // The associated descriptors of a block are computed here and stored just after the // stringtable. movl block_n,temp shrl $2,temp addl $31,temp shrl $5,temp // temp = set size (in words) movl temp,usage_bit_set_size # ifdef MAKE_DUS_SYMBOLIC addl $ DUS_FIXED_ENTRY_WSIZE,temp // temp = set size + size of fixed part # else incl temp // temp = set size + backup first characters of string # endif movl temp,set_entry_size_in_words // store entry size in words shll $2,temp movl temp,set_entry_size_in_bytes // store entry size in bytes # ifdef EXTEND_DESCRIPTOR_USAGE_TABLE movl temp,dus_entry_bsize movl heapP,dus_start # endif # define STORE_USAGE_BIT_SET_SIZE # ifdef STORE_USAGE_BIT_SET_SIZE # define DUS_USAGE_BIT_SIZE 0 # define DUS_N_USAGE_ENTRIES 4 # define DUS_HEADER_BSIZE (DUS_N_USAGE_ENTRIES + 4) # define DUS_HEADER_WSIZE (DUS_N_USAGE_ENTRIES / MACHINE_WORD_BSIZE) subl $2,free js undo_handler # define temp2 %ecx movl usage_bit_set_size,temp2 // store entry size in words movl temp2,DUS_USAGE_BIT_SIZE(heapP) movl $0,n_usage_entries // intilialize usage entry counter addl $ DUS_HEADER_BSIZE,heapP # undef temp2 # endif _set_undo_handler $undo_descriptor_usage movl $ compute_descriptor_usage,%ecx call MAKE_ID_FSN(lb_map_array) // The top-level dynamic is only inserted in the EN-table and not in the SN-table. Thus // compute_descriptor_usage movl $ 0,%ecx call MAKE_ID_FEN(lb_index_of_entry) call compute_descriptor_usage movl $ compute_descriptor_usage,%ecx call MAKE_ID_FEN(lb_map_array) # ifdef EXTEND_DESCRIPTOR_USAGE_TABLE # define dus_n_usage_entries %eax movl dus_start,dus_n_usage_entries # define temp3 %ebx movl n_usage_entries,temp3 movl temp3,DUS_N_USAGE_ENTRIES(dus_n_usage_entries) # undef temp3 # undef dus_n_usage_entries movl heapP,dus_end # endif jmp delete_indirections # undef temp // compute_descriptor_usage: // // the descriptor usage table is constructed for each SN-node. The algorithm can // be divided in: // - creating a dus-entry // - marking a dus-entry as used by a colour // // A dus entry looks like this: // 0 first four characters, backuped from the descriptor name // 4 library instance number // 12 marking set. Size is number of colours. // ? // // dynamicTemp voor root dynamic moet ook een entry in EN krijgen // call MAKE_ID_EN (het aflopen van SN is genoeg moet alleen nog root toevoegen) // descriptors van arrays 'inherit // TODO: // - descriptors van arrays (gaat goed) compute_descriptor_usage: #define sn_entry %ecx // compute pointer to descriptor name (similar to fragment in _copy_name) #define temp nodeP movl SN_COLOUR(sn_entry),temp andl $ ENSN_COLOUR_GET_COLOUR,temp pushl temp # ifdef ARRAY_DESCP movl temp,array_colour // backup array colour for its elements # endif movl SN_DESCP(sn_entry),descP #define LAZY_DYNAMICS_3 # ifdef LAZY_DYNAMICS_3 cmpl $ CLEAN_nbuild_block,descP jne hiero movl $ CLEAN_nbuild_lazy_block,descP hiero: # endif #undef sn_entry # ifdef ARRAY_DESCP // descP = descriptor pointer // tos = colour of parent node compute_descriptor_usage_got_descP: movl descP,descP_backup # endif call compute_label_name_ptr #define desc_nameP source #define setP descP movl 4(desc_nameP),setP testl setP,setP jns 3f // allocate space for four characters and set shll $1,setP jmp compute_descriptor_usage_got_space_for_set // allocate space 3: subl set_entry_size_in_words,free js undo_handler // initialize new block # ifdef STORE_USAGE_BIT_SET_SIZE incl n_usage_entries // count usage table entries # endif movl setP,(heapP) // backup first four characters #define setP_backup arity movl heapP,setP_backup // backup pointer #define temp nodeP movl heapP,temp shrl $1,temp orl $0x80000000,temp movl temp,4(desc_nameP) // first four characters of descriptor are marked and are pointer to dus-entry #undef temp #define counter nodeP #define limit descP movl $0,counter movl set_entry_size_in_words,limit decl limit addl $4,heapP 4: movl $0,(heapP) addl $4,heapP incl counter cmpl counter,limit jne 4b // empty descriptor usage set #undef counter #undef limit # ifdef EXTEND_DUS_WITH_LIBARY_NUMBER pushl setP_backup // backup ptr to dus entry movl desc_nameP,%ebx // load address in library call find_code_library_instance_nr // %eax = library instance number popl setP // restore ptr to dus_entry // movl $0x99999999,%eax movl %eax,DUS_LIBRARY_NUMBER(setP) // store library number # else movl setP_backup,setP // restore setP # endif // EXTEND_DUS_WITH_LIBARY_NUMBER #undef setP_backup compute_descriptor_usage_got_space_for_set: // setP = address of set entry // tos = current colour #define current_colour arity popl current_colour call MAKE_ID_FCT(lb_index_of_entry) #define associated_block current_colour movl (associated_block),associated_block andl $0x0000fffc,associated_block shrl $2,associated_block // get block_n #define word_index_in_set nodeP movl associated_block,word_index_in_set shrl $5,word_index_in_set // word index in set movl word_index_in_set,word_index_in_set #define bit_index_in_set_word associated_block movl associated_block,bit_index_in_set_word // index of bit to be set in that word andl $31,bit_index_in_set_word #define temp source movl $1,temp shll %cl,temp // build proper mask #undef associated_block #undef bit_index_in_set_word #define set_word arity movl DUS_FIXED_ENTRY_BSIZE(setP,word_index_in_set,4),set_word orl temp,set_word movl set_word,DUS_FIXED_ENTRY_BSIZE(setP,word_index_in_set,4) #undef set_word #undef setP #undef temp #undef current_colour #undef desc_nameP # ifdef ARRAY_DESCP movl descP_backup,descP cmpl $__ARRAY__+2,descP jne 0f movl 8(nodeP),descP pushl array_colour jmp compute_descriptor_usage_got_descP 0: # endif ret #endif // COLOUR_GRAPH #ifdef COLOUR_GRAPH // **** // compute_label_name_ptr // precondition: // - descP contains a valid (unmodified) descriptor pointer // postcondition: // - source contains the descName compute_label_name_ptr: testl $2,descP je 0f // closure detected movzwl -2(descP),arity cmpl $256,arity jb 1f #define desc_nameP source movl -6(descP),desc_nameP // get descriptor name jmp compute_descriptor_usage_got_name 1: # define temp nodeP movzwl (descP),temp // temp = partial arity * 8 leal -2(descP),desc_nameP // desc_nameP = descP - 2 subl temp,desc_nameP // desc_nameP = descP - arity * 8 movzwl -2(desc_nameP),temp // temp = total arity of descriptor leal 4(desc_nameP,temp,8),desc_nameP // desc_nameP = ptr to descriptor name jmp compute_descriptor_usage_got_name // closures 0: movl -8(descP),desc_nameP // get descP movl -4(descP),arity testl arity,arity jns 3f movl $1,arity 3: movzwl -2(desc_nameP),temp leal 4(desc_nameP,temp,8),desc_nameP jmp compute_descriptor_usage_got_name # undef temp compute_descriptor_usage_got_name: # undef desc_nameP ret #endif // COLOUR_GRAPH // ----------------------------------------------------------------------------------------- // Heap situation: // - the modified descriptors i.e. first four characters have been backup and replaced by a pointer in the // descriptor address table. // - (nodeP) has bit#0 set. Two cases: // 1) (nodeP) < heapP i.e. an indirection via the encoded graph // 2) otherwise i.e. (nodeP) is a SN/EN-pointer // pass 1; DELETE #define ML(x) x##_1 #define ENTRY_LABEL delete_next_indirection_1 #define ENTRY_LABEL_NODEP delete_next_indirection_in_nodeP_1 #define EXIT_LABEL deletion_done_1 #define DELETE_PASS #ifdef COLLECT_AND_RENUMBER_EXTERNAL_TYPE_REFERENCES # define IGNORE_TYPE_CONS_SYMBOL #else # error "ddd" #endif #define RESTORE_BUILD_BLOCK delete_indirections: #ifdef DEBUG_DELETE_INDIRECTIONS save_regs pushl $pass_delete_indirections call _w_print_string addl $4,%esp restore_regs #endif movl $0,n_nodes #define t0 %eax movl stackTop,t0 movl t0,descStackTop #undef t0 movl root_node,nodeP // descriptor prefix table may never start at offset 0 movl $0,function_name_list movl $0,module_name_list movl heapP,string_table_base jmp ML(delete_next_indirection_in_nodeP) #include "gts_delete.c" #undef EXIT_LABEL # include "gts_adjust_descriptor_offsets.c" .align 4 deletion_done_1: #ifdef DEBUG_DELETE_INDIRECTIONS save_regs pushl $end_pass_delete_indirections call _w_print_string addl $4,%esp restore_regs #endif movl heapP,string_table_end #define name_p arity #define temp nodeP #define temp2 descP removing_forwarding_pointers_in_strings: movl function_name_list,name_p #define t0 stackP #define t1 source #define t2 heapP pushl t0 pushl t1 pushl t2 movl stackTop,t0 movl string_table_base,t2 remove_function_names: testl name_p,name_p je end_remove_function_names movl (name_p),temp // temp = address function name in descriptor shll $1,temp movl (temp),temp andl $0x00ffffff,temp leal (t2,temp),temp // temp = address in string table movl -4(temp),temp2 // get length movl temp2,(name_p) // restore length in descriptor string movl (temp),temp // get 1st four characters movl 4(name_p),temp2 // exchange name_p with 1st four chars movl temp,4(name_p) movl temp2,name_p jmp remove_function_names end_remove_function_names: popl t2 popl t1 popl t0 #undef t2 #undef t1 #undef t0 movl module_name_list,name_p remove: testl name_p,name_p je end_remove_forwarding_pointers movl (name_p),temp shll $1,temp // temp = pointer to name of function movl -4(temp),temp2 // get length movl temp2,(name_p) // restore length in descriptor string movl (temp),temp // get 1st four characters movl 4(name_p),temp2 // exchange name_p with 1st four chars movl temp,4(name_p) movl temp2,name_p jmp remove end_remove_forwarding_pointers: #undef temp #undef name_p #undef temp2 #ifdef COLOUR_GRAPH testl free,free // int3 // movl root_node,%eax js undo_handler // graph has been restored, do a gc (graph has been restored) _set_default_undo_handler movl $ mark_EN_nodes_as_such,%ecx // EN-nodes are marked by setting bit#0 call MAKE_ID_FEN(lb_map_array) // computing the proper descP offset within a single component. The dynamic linker // will use the order of the descriptor address table to build a table for each block // separately. // // First the entry nodes of a particular block are traversed and marked as having been // visited, offsets are adapted accordingly. pushl %edi movl $ adjust_offset_per_block,%ecx call MAKE_ID_FBI(lb_map_array) movl $ unmark_EN_nodes_as_such,%ecx call MAKE_ID_FEN(lb_map_array) popl %edi // encode descriptor prefix table ... # define dus_p arity # define dus_end_p descP movl dus_start,dus_p # ifdef STORE_USAGE_BIT_SET_SIZE leal DUS_HEADER_BSIZE(dus_p),dus_p // skip usage entry size # endif movl dus_end,dus_end_p 0: # define temp nodeP movl (dus_p),temp // get descriptor prefix table ptr movl DPT_PREFIX_SET_AND_STRING_PTR(temp),temp movl temp,(dus_p) # undef temp addl dus_entry_bsize,dus_p cmpl dus_end_p,dus_p jb 0b # undef dus_p # undef dus_end_p // ... encode descriptor prefix table #else # include "gts_old_shared_prefixes" #endif // COLOUR_GRAPH #include "gts_return.c"