nickysn 0f69362edd - rm LEA reg,imm from x86ins.dat, as that's not a valid x86 instruction, ... using it in inline asm causes an internal error and removing it didn't show any regressions after running the testsuite on i386-linux. git-svn-id: trunk@25827 -		2013-10-18 23:26:58 +00:00
..
aopt386.pas
cgcpu.pas	* tsettings.enablecld converted to a targetswitch ts_cld	2013-09-28 13:41:58 +00:00
cpubase.inc	Implement support for saving and restoring address registers.	2013-10-05 21:43:42 +00:00
cpuelf.pas
cpuinfo.pas
cpunode.pas
cpupara.pas
cpupi.pas
cputarg.pas
csopt386.pas
daopt386.pas
hlcgcpu.pas
i386att.inc	+ added the NEC V20/V30 instructions	2013-10-11 21:27:56 +00:00
i386atts.inc	+ added the NEC V20/V30 instructions	2013-10-11 21:27:56 +00:00
i386int.inc	+ added the NEC V20/V30 instructions	2013-10-11 21:27:56 +00:00
i386nop.inc	- rm LEA reg,imm from x86ins.dat, as that's not a valid x86 instruction,	2013-10-18 23:26:58 +00:00
i386op.inc	+ added the NEC V20/V30 instructions	2013-10-11 21:27:56 +00:00
i386prop.inc	+ added the NEC V20/V30 instructions	2013-10-11 21:27:56 +00:00
i386tab.inc	- rm LEA reg,imm from x86ins.dat, as that's not a valid x86 instruction,	2013-10-18 23:26:58 +00:00
n386add.pas
n386cal.pas
n386inl.pas
n386mat.pas
n386mem.pas
n386set.pas	* cleanup of unused units	2013-07-07 20:00:33 +00:00
popt386.pas	* use add/sub instead of inc/dec on modern CPUs when optimizing for speed	2013-07-07 19:50:13 +00:00
r386ari.inc	* x86 targets: Profiling shows that quite a bit of time is spent in findreg_by_number(), despite it uses binary search. Worse, it is repeated for every piece of register information. Trying to get rid of some of these calls: rearranged registers so that their "opcode" matches 3 LSBs of superregister number (with a few exceptions described at the beginning of x86reg.dat). This allows to lookup opcodes in regval() with O(1) complexity, and removes need in rXXXop.inc files.	2013-10-03 08:08:04 +00:00
r386att.inc	* x86 targets: Profiling shows that quite a bit of time is spent in findreg_by_number(), despite it uses binary search. Worse, it is repeated for every piece of register information. Trying to get rid of some of these calls: rearranged registers so that their "opcode" matches 3 LSBs of superregister number (with a few exceptions described at the beginning of x86reg.dat). This allows to lookup opcodes in regval() with O(1) complexity, and removes need in rXXXop.inc files.	2013-10-03 08:08:04 +00:00
r386con.inc	* x86 targets: Profiling shows that quite a bit of time is spent in findreg_by_number(), despite it uses binary search. Worse, it is repeated for every piece of register information. Trying to get rid of some of these calls: rearranged registers so that their "opcode" matches 3 LSBs of superregister number (with a few exceptions described at the beginning of x86reg.dat). This allows to lookup opcodes in regval() with O(1) complexity, and removes need in rXXXop.inc files.	2013-10-03 08:08:04 +00:00
r386dwrf.inc	* x86 targets: Profiling shows that quite a bit of time is spent in findreg_by_number(), despite it uses binary search. Worse, it is repeated for every piece of register information. Trying to get rid of some of these calls: rearranged registers so that their "opcode" matches 3 LSBs of superregister number (with a few exceptions described at the beginning of x86reg.dat). This allows to lookup opcodes in regval() with O(1) complexity, and removes need in rXXXop.inc files.	2013-10-03 08:08:04 +00:00
r386int.inc	* x86 targets: Profiling shows that quite a bit of time is spent in findreg_by_number(), despite it uses binary search. Worse, it is repeated for every piece of register information. Trying to get rid of some of these calls: rearranged registers so that their "opcode" matches 3 LSBs of superregister number (with a few exceptions described at the beginning of x86reg.dat). This allows to lookup opcodes in regval() with O(1) complexity, and removes need in rXXXop.inc files.	2013-10-03 08:08:04 +00:00
r386iri.inc	* x86 targets: Profiling shows that quite a bit of time is spent in findreg_by_number(), despite it uses binary search. Worse, it is repeated for every piece of register information. Trying to get rid of some of these calls: rearranged registers so that their "opcode" matches 3 LSBs of superregister number (with a few exceptions described at the beginning of x86reg.dat). This allows to lookup opcodes in regval() with O(1) complexity, and removes need in rXXXop.inc files.	2013-10-03 08:08:04 +00:00
r386nasm.inc	* x86 targets: Profiling shows that quite a bit of time is spent in findreg_by_number(), despite it uses binary search. Worse, it is repeated for every piece of register information. Trying to get rid of some of these calls: rearranged registers so that their "opcode" matches 3 LSBs of superregister number (with a few exceptions described at the beginning of x86reg.dat). This allows to lookup opcodes in regval() with O(1) complexity, and removes need in rXXXop.inc files.	2013-10-03 08:08:04 +00:00
r386nor.inc
r386nri.inc	* x86 targets: Profiling shows that quite a bit of time is spent in findreg_by_number(), despite it uses binary search. Worse, it is repeated for every piece of register information. Trying to get rid of some of these calls: rearranged registers so that their "opcode" matches 3 LSBs of superregister number (with a few exceptions described at the beginning of x86reg.dat). This allows to lookup opcodes in regval() with O(1) complexity, and removes need in rXXXop.inc files.	2013-10-03 08:08:04 +00:00
r386num.inc	* x86 targets: Profiling shows that quite a bit of time is spent in findreg_by_number(), despite it uses binary search. Worse, it is repeated for every piece of register information. Trying to get rid of some of these calls: rearranged registers so that their "opcode" matches 3 LSBs of superregister number (with a few exceptions described at the beginning of x86reg.dat). This allows to lookup opcodes in regval() with O(1) complexity, and removes need in rXXXop.inc files.	2013-10-03 08:08:04 +00:00
r386ot.inc	* x86 targets: Profiling shows that quite a bit of time is spent in findreg_by_number(), despite it uses binary search. Worse, it is repeated for every piece of register information. Trying to get rid of some of these calls: rearranged registers so that their "opcode" matches 3 LSBs of superregister number (with a few exceptions described at the beginning of x86reg.dat). This allows to lookup opcodes in regval() with O(1) complexity, and removes need in rXXXop.inc files.	2013-10-03 08:08:04 +00:00
r386rni.inc	* x86 targets: Profiling shows that quite a bit of time is spent in findreg_by_number(), despite it uses binary search. Worse, it is repeated for every piece of register information. Trying to get rid of some of these calls: rearranged registers so that their "opcode" matches 3 LSBs of superregister number (with a few exceptions described at the beginning of x86reg.dat). This allows to lookup opcodes in regval() with O(1) complexity, and removes need in rXXXop.inc files.	2013-10-03 08:08:04 +00:00
r386sri.inc	* x86 targets: Profiling shows that quite a bit of time is spent in findreg_by_number(), despite it uses binary search. Worse, it is repeated for every piece of register information. Trying to get rid of some of these calls: rearranged registers so that their "opcode" matches 3 LSBs of superregister number (with a few exceptions described at the beginning of x86reg.dat). This allows to lookup opcodes in regval() with O(1) complexity, and removes need in rXXXop.inc files.	2013-10-03 08:08:04 +00:00
r386stab.inc
r386std.inc	* x86 targets: Profiling shows that quite a bit of time is spent in findreg_by_number(), despite it uses binary search. Worse, it is repeated for every piece of register information. Trying to get rid of some of these calls: rearranged registers so that their "opcode" matches 3 LSBs of superregister number (with a few exceptions described at the beginning of x86reg.dat). This allows to lookup opcodes in regval() with O(1) complexity, and removes need in rXXXop.inc files.	2013-10-03 08:08:04 +00:00
ra386att.pas
ra386int.pas
rgcpu.pas
rropt386.pas