#===-- SIGenRegisterInfo.pl - Script for generating register info files ----===# # # The LLVM Compiler Infrastructure # # This file is distributed under the University of Illinois Open Source # License. See LICENSE.TXT for details. # #===------------------------------------------------------------------------===# # # This perl script prints to stdout .td code to be used as SIRegisterInfo.td # it also generates a file called SIHwRegInfo.include, which contains helper # functions for determining the hw encoding of registers. # #===------------------------------------------------------------------------===# use strict; use warnings; my $SGPR_COUNT = 104; my $VGPR_COUNT = 256; my $SGPR_MAX_IDX = $SGPR_COUNT - 1; my $VGPR_MAX_IDX = $VGPR_COUNT - 1; my $INDEX_FILE = defined($ARGV[0]) ? $ARGV[0] : ''; print < : Register { let Namespace = "AMDGPU"; } class SI_64 subregs> : RegisterWithSubRegs { let Namespace = "AMDGPU"; let SubRegIndices = [low, high]; } class SI_128 subregs> : RegisterWithSubRegs { let Namespace = "AMDGPU"; let SubRegIndices = [sel_x, sel_y, sel_z, sel_w]; } class SI_256 subregs> : RegisterWithSubRegs { let Namespace = "AMDGPU"; let SubRegIndices = [sub0, sub1, sub2, sub3, sub4, sub5, sub6, sub7]; } class SGPR_32 num, string name> : SIReg { field bits<8> Num; let Num = num; } class VGPR_32 num, string name> : SIReg { field bits<9> Num; let Num = num; } class SGPR_64 num, string name, list subregs> : SI_64 ; class VGPR_64 num, string name, list subregs> : SI_64 ; class SGPR_128 num, string name, list subregs> : SI_128 ; class VGPR_128 num, string name, list subregs> : SI_128 ; class SGPR_256 num, string name, list subregs> : SI_256 ; def VCC : SIReg<"VCC">; def EXEC_LO : SIReg<"EXEC LO">; def EXEC_HI : SIReg<"EXEC HI">; def EXEC : SI_64<"EXEC", [EXEC_LO,EXEC_HI]>; def SCC : SIReg<"SCC">; def SREG_LIT_0 : SIReg <"S LIT 0">; def SI_LITERAL_CONSTANT : SIReg<"LITERAL CONSTANT">; def M0 : SIReg <"M0">; //Interpolation registers def PERSP_SAMPLE_I : SIReg <"PERSP_SAMPLE_I">; def PERSP_SAMPLE_J : SIReg <"PERSP_SAMPLE_J">; def PERSP_CENTER_I : SIReg <"PERSP_CENTER_I">; def PERSP_CENTER_J : SIReg <"PERSP_CENTER_J">; def PERSP_CENTROID_I : SIReg <"PERSP_CENTROID_I">; def PERSP_CENTROID_J : SIReg <"PERP_CENTROID_J">; def PERSP_I_W : SIReg <"PERSP_I_W">; def PERSP_J_W : SIReg <"PERSP_J_W">; def PERSP_1_W : SIReg <"PERSP_1_W">; def LINEAR_SAMPLE_I : SIReg <"LINEAR_SAMPLE_I">; def LINEAR_SAMPLE_J : SIReg <"LINEAR_SAMPLE_J">; def LINEAR_CENTER_I : SIReg <"LINEAR_CENTER_I">; def LINEAR_CENTER_J : SIReg <"LINEAR_CENTER_J">; def LINEAR_CENTROID_I : SIReg <"LINEAR_CENTROID_I">; def LINEAR_CENTROID_J : SIReg <"LINEAR_CENTROID_J">; def LINE_STIPPLE_TEX_COORD : SIReg <"LINE_STIPPLE_TEX_COORD">; def POS_X_FLOAT : SIReg <"POS_X_FLOAT">; def POS_Y_FLOAT : SIReg <"POS_Y_FLOAT">; def POS_Z_FLOAT : SIReg <"POS_Z_FLOAT">; def POS_W_FLOAT : SIReg <"POS_W_FLOAT">; def FRONT_FACE : SIReg <"FRONT_FACE">; def ANCILLARY : SIReg <"ANCILLARY">; def SAMPLE_COVERAGE : SIReg <"SAMPLE_COVERAGE">; def POS_FIXED_PT : SIReg <"POS_FIXED_PT">; STRING #32 bit register my @SGPR; for (my $i = 0; $i < $SGPR_COUNT; $i++) { print "def SGPR$i : SGPR_32 <$i, \"SGPR$i\">;\n"; $SGPR[$i] = "SGPR$i"; } my @VGPR; for (my $i = 0; $i < $VGPR_COUNT; $i++) { print "def VGPR$i : VGPR_32 <$i, \"VGPR$i\">;\n"; $VGPR[$i] = "VGPR$i"; } print <; def VReg_32 : RegisterClass<"AMDGPU", [f32, i32], 32, (add (sequence "VGPR%u", 0, $VGPR_MAX_IDX), PERSP_SAMPLE_I, PERSP_SAMPLE_J, PERSP_CENTER_I, PERSP_CENTER_J, PERSP_CENTROID_I, PERSP_CENTROID_J, PERSP_I_W, PERSP_J_W, PERSP_1_W, LINEAR_SAMPLE_I, LINEAR_SAMPLE_J, LINEAR_CENTER_I, LINEAR_CENTER_J, LINEAR_CENTROID_I, LINEAR_CENTROID_J, LINE_STIPPLE_TEX_COORD, POS_X_FLOAT, POS_Y_FLOAT, POS_Z_FLOAT, POS_W_FLOAT, FRONT_FACE, ANCILLARY, SAMPLE_COVERAGE, POS_FIXED_PT ) >; def AllReg_32 : RegisterClass<"AMDGPU", [f32, i32], 32, (add VReg_32, SReg_32) >; def SCCReg : RegisterClass<"AMDGPU", [i1], 1, (add SCC)>; def VCCReg : RegisterClass<"AMDGPU", [i1], 1, (add VCC)>; def EXECReg : RegisterClass<"AMDGPU", [i1], 1, (add EXEC)>; def M0Reg : RegisterClass<"AMDGPU", [i32], 32, (add M0)>; STRING my @subregs_64 = ('low', 'high'); my @subregs_128 = ('sel_x', 'sel_y', 'sel_z', 'sel_w'); my @subregs_256 = ('sub0', 'sub1', 'sub2', 'sub3', 'sub4', 'sub5', 'sub6', 'sub7'); my @SGPR64 = print_sgpr_class(64, \@subregs_64, ('i64')); my @SGPR128 = print_sgpr_class(128, \@subregs_128, ('v4f32', 'v4i32')); my @SGPR256 = print_sgpr_class(256, \@subregs_256, ('v8i32')); my @VGPR64 = print_vgpr_class(64, \@subregs_64, ('i64')); my @VGPR128 = print_vgpr_class(128, \@subregs_128, ('v4f32')); my $sgpr64_list = join(',', @SGPR64); my $vgpr64_list = join(',', @VGPR64); print <; STRING if ($INDEX_FILE ne '') { open(my $fh, ">", $INDEX_FILE); my %hw_values; for (my $i = 0; $i <= $#SGPR; $i++) { push (@{$hw_values{$i}}, $SGPR[$i]); } for (my $i = 0; $i <= $#SGPR64; $i++) { push (@{$hw_values{$i * 2}}, $SGPR64[$i]) } for (my $i = 0; $i <= $#SGPR128; $i++) { push (@{$hw_values{$i * 4}}, $SGPR128[$i]); } for (my $i = 0; $i <= $#SGPR256; $i++) { push (@{$hw_values{$i * 8}}, $SGPR256[$i]); } for (my $i = 0; $i <= $#VGPR; $i++) { push (@{$hw_values{$i}}, $VGPR[$i]); } for (my $i = 0; $i <= $#VGPR64; $i++) { push (@{$hw_values{$i * 2}}, $VGPR64[$i]); } for (my $i = 0; $i <= $#VGPR128; $i++) { push (@{$hw_values{$i * 4}}, $VGPR128[$i]); } print $fh "unsigned SIRegisterInfo::getHWRegNum(unsigned reg) const\n{\n switch(reg) {\n"; for my $key (keys(%hw_values)) { my @names = @{$hw_values{$key}}; for my $regname (@names) { print $fh " case AMDGPU::$regname:\n" } print $fh " return $key;\n"; } print $fh " default: assert(!\"Unknown Register\"); return 0;\n }\n}\n" } sub print_sgpr_class { my ($reg_width, $sub_reg_ref, @types) = @_; return print_reg_class('SReg', 'SGPR', $reg_width, $SGPR_COUNT, $sub_reg_ref, @types); } sub print_vgpr_class { my ($reg_width, $sub_reg_ref, @types) = @_; return print_reg_class('VReg', 'VGPR', $reg_width, $VGPR_COUNT, $sub_reg_ref, @types); } sub print_reg_class { my ($class_prefix, $reg_prefix, $reg_width, $reg_count, $sub_reg_ref, @types) = @_; my @registers; my $component_count = $reg_width / 32; for (my $i = 0; $i < $reg_count; $i += $component_count) { my $reg_name = $reg_prefix . $i . '_' . $reg_width; my @sub_regs; for (my $idx = 0; $idx < $component_count; $idx++) { my $sub_idx = $i + $idx; push(@sub_regs, $reg_prefix . $sub_idx); } print "def $reg_name : $reg_prefix\_$reg_width <$i, \"$reg_name\", [ ", join(',', @sub_regs) , "]>;\n"; push (@registers, $reg_name); } #Add VCC to SReg_64 if ($class_prefix eq 'SReg' and $reg_width == 64) { push (@registers, 'VCC') } #Add EXEC to SReg_64 if ($class_prefix eq 'SReg' and $reg_width == 64) { push (@registers, 'EXEC') } my $reg_list = join(', ', @registers); print "def $class_prefix\_$reg_width : RegisterClass<\"AMDGPU\", [" . join (', ', @types) . "], $reg_width,\n (add $reg_list)\n>{\n"; print " let SubRegClasses = [($class_prefix\_", ($reg_width / $component_count) , ' ', join(', ', @{$sub_reg_ref}), ")];\n}\n"; return @registers; }