{ $Id$ This file is part of the Free Pascal run time library. Copyright (c) 1999-2000 by the Free Pascal development team Include file with set operations called by the compiler See the file COPYING.FPC, included in this distribution, for details about the copyright. 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. **********************************************************************} {$define FPC_SYSTEM_HAS_FPC_SET_LOAD_SMALL} function fpc_set_load_small(l: fpc_small_set): fpc_normal_set;assembler;[public,alias:'FPC_SET_LOAD_SMALL']; {$ifdef hascompilerproc} compilerproc; {$endif} { load a normal set p from a smallset l } asm movl __RESULT,%edi movl l,%eax stosl xorl %eax,%eax movl $7,%ecx rep stosl end ['EAX','ECX','EDI']; {$define FPC_SYSTEM_HAS_FPC_SET_CREATE_ELEMENT} function fpc_set_create_element(b : byte): fpc_normal_set;assembler;[public,alias:'FPC_SET_CREATE_ELEMENT']; {$ifdef hascompilerproc} compilerproc; {$endif} { create a new set in p from an element b } asm {$ifndef hascompilerproc} pushl %eax pushl %ecx {$endif not hascompilerproc} movl __RESULT,%edi xorl %eax,%eax movl $8,%ecx rep stosl leal -32(%edi),%eax movzbl b,%edi btsl %edi,(%eax) {$ifndef hascompilerproc} popl %ecx popl %eax {$endif hascompilerproc} end ['EAX','ECX','EDI']; {$define FPC_SYSTEM_HAS_FPC_SET_SET_BYTE} {$ifdef hascompilerproc} function fpc_set_set_byte(const source: fpc_normal_set; b : byte): fpc_normal_set;assembler; compilerproc; { add the element b to the set pointed by source } asm movl $8,%ecx movl source,%esi movl __RESULT,%edi rep movsl leal -32(%edi),%eax movzbl b,%edi btsl %edi,(%eax) end ['EAX','ECX','ESI','EDI']; {$else hascompilerproc} function fpc_set_set_byte(b : byte): fpc_normal_set;assembler;[public,alias:'FPC_SET_SET_BYTE']; { add the element b to the set pointed by p } asm pushl %eax movl __RESULT,%edi movb b,%al andl $0xf8,%eax shrl $3,%eax addl %eax,%edi movb b,%al andl $7,%eax btsl %eax,(%edi) popl %eax end; {$endif hascompilerproc} {$define FPC_SYSTEM_HAS_FPC_SET_UNSET_BYTE} {$ifdef hascompilerproc} function fpc_set_unset_byte(const source: fpc_normal_set; b : byte): fpc_normal_set;assembler; compilerproc; { add the element b to the set pointed by source } asm movl $8,%ecx movl source,%esi movl __RESULT,%edi rep movsl leal -32(%edi),%eax movzbl b,%edi btrl %edi,(%eax) end ['EAX','ECX','ESI','EDI']; {$else hascompilerproc} function fpc_set_unset_byte(b : byte): fpc_normal_set;assembler;[public,alias:'FPC_SET_UNSET_BYTE']; {$ifdef hascompilerproc} compilerproc; {$endif} { suppresses the element b to the set pointed by p used for exclude(set,element) } asm pushl %eax movl __RESULT,%edi movb b,%al andl $0xf8,%eax shrl $3,%eax addl %eax,%edi movb b,%al andl $7,%eax btrl %eax,(%edi) popl %eax end; {$endif hascompilerproc} {$define FPC_SYSTEM_HAS_FPC_SET_SET_RANGE} {$ifdef hascompilerproc} function fpc_set_set_range(const orgset: fpc_normal_set; l,h : byte): fpc_normal_set;assembler; compilerproc; { adds the range [l..h] to the set pointed to by p } asm movzbl l,%eax // lowest bit to be set in eax movzbl h,%ebx // highest in ebx movl $8,%ecx // we have to copy 32 bytes movl __RESULT,%edi // target set address in edi movl orgset, %esi // source set address in esi cmpl %eax,%ebx // high < low? rep // copy source to dest (it's possible to do the range movsl // setting and copying simultanuously of course, but // that would result in many more jumps and code) movl %eax,%ecx // lowest also in ecx jb .Lset_range_done // if high > low, then dest := source shrl $3,%eax // divide by 8 to get starting and ending byte shrl $3,%ebx // address andb $31,%cl // low five bits of lo determine start of bit mask andl $0x0fffffffc,%eax // clear two lowest bits to get start/end longint subl $32,%edi // get back to start of dest andl $0x0fffffffc,%ebx // address * 4 movl $0x0ffffffff,%edx // edx = bitmask to be inserted shll %cl,%edx // shift bitmask to clear bits below lo addl %eax,%edi // go to starting pos in set subl %eax,%ebx // are bit lo and hi in the same longint? jz .Lset_range_hi // yes, keep current mask and adjust for hi bit orl %edx,(%edi) // no, store current mask movl $0x0ffffffff,%edx // new mask addl $4,%edi // next longint of set subl $4,%ebx // bit hi in this longint? jz .Lset_range_hi // yes, keep full mask and adjust for hi bit .Lset_range_loop: movl %edx,(%edi) // no, fill longints in between with full mask addl $4,%edi subl $4,%ebx jnz .Lset_range_loop .Lset_range_hi: movb h,%cl movl %edx,%ebx // save current bitmask andb $31,%cl subb $31,%cl // cl := (31 - (hi and 31)) = shift count to negb %cl // adjust bitmask for hi bit shrl %cl,%edx // shift bitmask to clear bits higher than hi andl %edx,%ebx // combine both bitmasks orl %ebx,(%edi) // store to set .Lset_range_done: end; {$else hascompilerproc} function fpc_set_set_range(l,h : byte): fpc_normal_set;assembler;[public,alias:'FPC_SET_SET_RANGE']; { adds the range [l..h] to the set pointed to by p } asm movzbl l,%eax // lowest bit to be set in eax movzbl h,%ebx // highest in ebx cmpl %eax,%ebx jb .Lset_range_done movl __RESULT,%edi // set address in edi movl %eax,%ecx // lowest also in ecx shrl $3,%eax // divide by 8 to get starting and ending byte shrl $3,%ebx // address andb $31,%cl // low five bits of lo determine start of bit mask movl $0x0ffffffff,%edx // edx = bitmask to be inserted andl $0x0fffffffc,%eax // clear two lowest bits to get start/end longint andl $0x0fffffffc,%ebx // address * 4 shll %cl,%edx // shift bitmask to clear bits below lo addl %eax,%edi // go to starting pos in set subl %eax,%ebx // are bit lo and hi in the same longint? jz .Lset_range_hi // yes, keep current mask and adjust for hi bit orl %edx,(%edi) // no, store current mask movl $0x0ffffffff,%edx // new mask addl $4,%edi // next longint of set subl $4,%ebx // bit hi in this longint? jz .Lset_range_hi // yes, keep full mask and adjust for hi bit .Lset_range_loop: movl %edx,(%edi) // no, fill longints in between with full mask addl $4,%edi subl $4,%ebx jnz .Lset_range_loop .Lset_range_hi: movb h,%cl movl %edx,%ebx // save current bitmask andb $31,%cl subb $31,%cl // cl := (31 - (hi and 31)) = shift count to negb %cl // adjust bitmask for hi bit shrl %cl,%edx // shift bitmask to clear bits higher than hi andl %edx,%ebx // combine both bitmasks orl %ebx,(%edi) // store to set .Lset_range_done: end; {$endif hascompilerproc} {$define FPC_SYSTEM_HAS_FPC_SET_IN_BYTE} {$ifdef hascompilerproc} { it's inlined in the code generator } function fpc_set_in_byte(const p: fpc_normal_set; b: byte): boolean; compilerproc; begin { make sure we won't accidentally call it } runerror(216); end; {$endif hascompilerproc} function fpc_set_in_byte_i386(p: pointer; b : byte): boolean;assembler;[public,alias:'FPC_SET_IN_BYTE']; { tests if the element b is in the set p the carryflag is set if it present } asm { it's inlined in the code generator } {$ifndef hascompilerproc} pushl %eax movl p,%edi movzbl b,%eax btl %eax,(%edi) popl %eax {$endif not hascompilerproc} end; {$define FPC_SYSTEM_HAS_FPC_SET_ADD_SETS} {$ifdef hascompilerproc} function fpc_set_add_sets(const set1,set2: fpc_normal_set): fpc_normal_set;assembler;[public,alias:'FPC_SET_ADD_SETS']; compilerproc; {$else hascompilerproc} procedure fpc_set_add_sets(set1,set2,dest : pointer);assembler;[public,alias:'FPC_SET_ADD_SETS']; {$endif hascompilerproc} { adds set1 and set2 into set dest } asm movl set1,%esi movl set2,%ebx {$ifdef hascompilerproc} movl __RESULT,%edi {$else hascompilerproc} movl dest,%edi {$endif hascompilerproc} movl $8,%ecx .LMADDSETS1: lodsl orl (%ebx),%eax stosl addl $4,%ebx decl %ecx jnz .LMADDSETS1 end; {$define FPC_SYSTEM_HAS_FPC_SET_MUL_SETS} {$ifdef hascompilerproc} function fpc_set_mul_sets(const set1,set2: fpc_normal_set): fpc_normal_set;assembler;[public,alias:'FPC_SET_MUL_SETS']; compilerproc; {$else hascompilerproc} procedure fpc_set_mul_sets(set1,set2,dest:pointer);assembler;[public,alias:'FPC_SET_MUL_SETS']; {$endif hascompilerproc} { multiplies (takes common elements of) set1 and set2 result put in dest } asm movl set1,%esi movl set2,%ebx {$ifdef hascompilerproc} movl __RESULT,%edi {$else hascompilerproc} movl dest,%edi {$endif hascompilerproc} movl $8,%ecx .LMMULSETS1: lodsl andl (%ebx),%eax stosl addl $4,%ebx decl %ecx jnz .LMMULSETS1 end; {$define FPC_SYSTEM_HAS_FPC_SET_SUB_SETS} {$ifdef hascompilerproc} function fpc_set_sub_sets(const set1,set2: fpc_normal_set): fpc_normal_set;assembler;[public,alias:'FPC_SET_SUB_SETS']; compilerproc; {$else hascompilerproc} procedure fpc_set_sub_sets(set1,set2,dest:pointer);assembler;[public,alias:'FPC_SET_SUB_SETS']; {$endif hascompilerproc} { computes the diff from set1 to set2 result in dest } asm movl set1,%esi movl set2,%ebx {$ifdef hascompilerproc} movl __RESULT,%edi {$else hascompilerproc} movl dest,%edi {$endif hascompilerproc} movl $8,%ecx .LMSUBSETS1: lodsl movl (%ebx),%edx notl %edx andl %edx,%eax stosl addl $4,%ebx decl %ecx jnz .LMSUBSETS1 end; {$define FPC_SYSTEM_HAS_FPC_SET_SYMDIF_SETS} {$ifdef hascompilerproc} function fpc_set_symdif_sets(const set1,set2: fpc_normal_set): fpc_normal_set;assembler;[public,alias:'FPC_SET_SYMDIF_SETS']; compilerproc; {$else hascompilerproc} procedure fpc_set_symdif_sets(set1,set2,dest:pointer);assembler;[public,alias:'FPC_SET_SYMDIF_SETS']; {$endif hascompilerproc} { computes the symetric diff from set1 to set2 result in dest } asm movl set1,%esi movl set2,%ebx {$ifdef hascompilerproc} movl __RESULT,%edi {$else hascompilerproc} movl dest,%edi {$endif hascompilerproc} movl $8,%ecx .LMSYMDIFSETS1: lodsl movl (%ebx),%edx xorl %edx,%eax stosl addl $4,%ebx decl %ecx jnz .LMSYMDIFSETS1 end; {$define FPC_SYSTEM_HAS_FPC_SET_COMP_SETS} function fpc_set_comp_sets(const set1,set2: fpc_normal_set): boolean;assembler;[public,alias:'FPC_SET_COMP_SETS']; {$ifdef hascompilerproc} compilerproc; {$endif} { compares set1 and set2 zeroflag is set if they are equal } asm movl set1,%esi movl set2,%edi movl $8,%ecx .LMCOMPSETS1: movl (%esi),%eax movl (%edi),%edx cmpl %edx,%eax jne .LMCOMPSETEND addl $4,%esi addl $4,%edi decl %ecx jnz .LMCOMPSETS1 { we are here only if the two sets are equal we have zero flag set, and that what is expected } .LMCOMPSETEND: {$ifdef hascompilerproc} seteb %al {$endif hascompilerproc} end; {$define FPC_SYSTEM_HAS_FPC_SET_CONTAINS_SET} function fpc_set_contains_sets(const set1,set2: fpc_normal_set): boolean;assembler;[public,alias:'FPC_SET_CONTAINS_SETS']; {$ifdef hascompilerproc} compilerproc; {$endif} { on exit, zero flag is set if set1 <= set2 (set2 contains set1) } asm movl set1,%esi movl set2,%edi movl $8,%ecx .LMCONTAINSSETS1: movl (%esi),%eax movl (%edi),%edx andl %eax,%edx cmpl %edx,%eax {set1 and set2 = set1?} jne .LMCONTAINSSETEND addl $4,%esi addl $4,%edi decl %ecx jnz .LMCONTAINSSETS1 { we are here only if set2 contains set1 we have zero flag set, and that what is expected } .LMCONTAINSSETEND: {$ifdef hascompilerproc} seteb %al {$endif hascompilerproc} end; {$ifdef LARGESETS} procedure fpc_largeset_set_word(p : pointer;b : word);assembler;[public,alias:'FPC_LARGESET_SET_WORD']; {$ifdef hascompilerproc} compilerproc; {$endif} { sets the element b in set p works for sets larger than 256 elements not yet use by the compiler so } asm pushl %eax movl p,%edi movw b,%ax andl $0xfff8,%eax shrl $3,%eax addl %eax,%edi movb 12(%ebp),%al andl $7,%eax btsl %eax,(%edi) popl %eax end; procedure fpc_largeset_in_word(p : pointer;b : word);assembler;[public,alias:'FPC_LARGESET_IN_WORD']; {$ifdef hascompilerproc} compilerproc; {$endif} { tests if the element b is in the set p the carryflag is set if it present works for sets larger than 256 elements } asm pushl %eax movl p,%edi movw b,%ax andl $0xfff8,%eax shrl $3,%eax addl %eax,%edi movb 12(%ebp),%al andl $7,%eax btl %eax,(%edi) popl %eax end; procedure fpc_largeset_add_sets(set1,set2,dest : pointer;size : longint);assembler;[public,alias:'FPC_LARGESET_ADD_SETS']; {$ifdef hascompilerproc} compilerproc; {$endif} { adds set1 and set2 into set dest size is the number of bytes in the set } asm movl set1,%esi movl set2,%ebx movl dest,%edi movl size,%ecx .LMADDSETSIZES1: lodsl orl (%ebx),%eax stosl addl $4,%ebx decl %ecx jnz .LMADDSETSIZES1 end; procedure fpc_largeset_mul_sets(set1,set2,dest : pointer;size : longint);assembler;[public,alias:'FPC_LARGESET_MUL_SETS']; {$ifdef hascompilerproc} compilerproc; {$endif} { multiplies (i.E. takes common elements of) set1 and set2 result put in dest size is the number of bytes in the set } asm movl set1,%esi movl set2,%ebx movl dest,%edi movl size,%ecx .LMMULSETSIZES1: lodsl andl (%ebx),%eax stosl addl $4,%ebx decl %ecx jnz .LMMULSETSIZES1 end; procedure fpc_largeset_sub_sets(set1,set2,dest : pointer;size : longint);assembler;[public,alias:'FPC_LARGESET_SUB_SETS']; {$ifdef hascompilerproc} compilerproc; {$endif} asm movl set1,%esi movl set2,%ebx movl dest,%edi movl size,%ecx .LMSUBSETSIZES1: lodsl movl (%ebx),%edx notl %edx andl %edx,%eax stosl addl $4,%ebx decl %ecx jnz .LMSUBSETSIZES1 end; procedure fpc_largeset_symdif_sets(set1,set2,dest : pointer;size : longint);assembler;[public,alias:'FPC_LARGESET_SYMDIF_SETS']; {$ifdef hascompilerproc} compilerproc; {$endif} { computes the symetric diff from set1 to set2 result in dest } asm movl set1,%esi movl set2,%ebx movl dest,%edi movl size,%ecx .LMSYMDIFSETSIZE1: lodsl movl (%ebx),%edx xorl %edx,%eax stosl addl $4,%ebx decl %ecx jnz .LMSYMDIFSETSIZE1 end; procedure fpc_largeset_comp_sets(set1,set2 : pointer;size : longint);assembler;[public,alias:'FPC_LARGESET_COMP_SETS']; {$ifdef hascompilerproc} compilerproc; {$endif} asm movl set1,%esi movl set2,%edi movl size,%ecx .LMCOMPSETSIZES1: lodsl movl (%edi),%edx cmpl %edx,%eax jne .LMCOMPSETSIZEEND addl $4,%edi decl %ecx jnz .LMCOMPSETSIZES1 { we are here only if the two sets are equal we have zero flag set, and that what is expected } .LMCOMPSETSIZEEND: end; procedure fpc_largeset_contains_sets(set1,set2 : pointer; size: longint);assembler;[public,alias:'FPC_LARGESET_CONTAINS_SETS']; {$ifdef hascompilerproc} compilerproc; {$endif} { on exit, zero flag is set if set1 <= set2 (set2 contains set1) } asm movl set1,%esi movl set2,%edi movl size,%ecx .LMCONTAINSSETS2: movl (%esi),%eax movl (%edi),%edx andl %eax,%edx cmpl %edx,%eax {set1 and set2 = set1?} jne .LMCONTAINSSETEND2 addl $4,%esi addl $4,%edi decl %ecx jnz .LMCONTAINSSETS2 { we are here only if set2 contains set1 we have zero flag set, and that what is expected } .LMCONTAINSSETEND2: end; {$endif LARGESET} { $Log$ Revision 1.9 2002-09-07 16:01:19 peter * old logs removed and tabs fixed Revision 1.8 2002/03/29 20:15:44 peter * fixed load_smallset }