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clang format in codegen & codegen_new

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This commit is contained in:
Jasmine Iwanek
2022-11-19 09:49:14 -05:00
parent 3fe4f75108
commit 9e77acf655
86 changed files with 46864 additions and 47787 deletions
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331
src/codegen_new/codegen_ops_fpu_loadstore.c
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@@ -14,221 +14,234 @@
#include "codegen_ops_fpu_arith.h"
#include "codegen_ops_helpers.h"
uint32_t ropFLDs(codeblock_t *block, ir_data_t *ir, uint8_t opcode, uint32_t fetchdat, uint32_t op_32, uint32_t op_pc)
uint32_t
ropFLDs(codeblock_t *block, ir_data_t *ir, uint8_t opcode, uint32_t fetchdat, uint32_t op_32, uint32_t op_pc)
{
x86seg *target_seg;
x86seg *target_seg;
uop_FP_ENTER(ir);
uop_MOV_IMM(ir, IREG_oldpc, cpu_state.oldpc);
op_pc--;
target_seg = codegen_generate_ea(ir, op_ea_seg, fetchdat, op_ssegs, &op_pc, op_32, 0);
codegen_check_seg_read(block, ir, target_seg);
uop_MEM_LOAD_SINGLE(ir, IREG_ST(-1), ireg_seg_base(target_seg), IREG_eaaddr);
uop_MOV_IMM(ir, IREG_tag(-1), TAG_VALID);
fpu_PUSH(block, ir);
uop_FP_ENTER(ir);
uop_MOV_IMM(ir, IREG_oldpc, cpu_state.oldpc);
op_pc--;
target_seg = codegen_generate_ea(ir, op_ea_seg, fetchdat, op_ssegs, &op_pc, op_32, 0);
codegen_check_seg_read(block, ir, target_seg);
uop_MEM_LOAD_SINGLE(ir, IREG_ST(-1), ireg_seg_base(target_seg), IREG_eaaddr);
uop_MOV_IMM(ir, IREG_tag(-1), TAG_VALID);
fpu_PUSH(block, ir);
return op_pc+1;
return op_pc + 1;
}
uint32_t ropFLDd(codeblock_t *block, ir_data_t *ir, uint8_t opcode, uint32_t fetchdat, uint32_t op_32, uint32_t op_pc)
uint32_t
ropFLDd(codeblock_t *block, ir_data_t *ir, uint8_t opcode, uint32_t fetchdat, uint32_t op_32, uint32_t op_pc)
{
x86seg *target_seg;
x86seg *target_seg;
uop_FP_ENTER(ir);
uop_MOV_IMM(ir, IREG_oldpc, cpu_state.oldpc);
op_pc--;
target_seg = codegen_generate_ea(ir, op_ea_seg, fetchdat, op_ssegs, &op_pc, op_32, 0);
codegen_check_seg_read(block, ir, target_seg);
uop_MEM_LOAD_DOUBLE(ir, IREG_ST(-1), ireg_seg_base(target_seg), IREG_eaaddr);
uop_MOV_IMM(ir, IREG_tag(-1), TAG_VALID);
fpu_PUSH(block, ir);
uop_FP_ENTER(ir);
uop_MOV_IMM(ir, IREG_oldpc, cpu_state.oldpc);
op_pc--;
target_seg = codegen_generate_ea(ir, op_ea_seg, fetchdat, op_ssegs, &op_pc, op_32, 0);
codegen_check_seg_read(block, ir, target_seg);
uop_MEM_LOAD_DOUBLE(ir, IREG_ST(-1), ireg_seg_base(target_seg), IREG_eaaddr);
uop_MOV_IMM(ir, IREG_tag(-1), TAG_VALID);
fpu_PUSH(block, ir);
return op_pc+1;
return op_pc + 1;
}
uint32_t ropFSTs(codeblock_t *block, ir_data_t *ir, uint8_t opcode, uint32_t fetchdat, uint32_t op_32, uint32_t op_pc)
uint32_t
ropFSTs(codeblock_t *block, ir_data_t *ir, uint8_t opcode, uint32_t fetchdat, uint32_t op_32, uint32_t op_pc)
{
x86seg *target_seg;
x86seg *target_seg;
uop_FP_ENTER(ir);
uop_MOV_IMM(ir, IREG_oldpc, cpu_state.oldpc);
op_pc--;
target_seg = codegen_generate_ea(ir, op_ea_seg, fetchdat, op_ssegs, &op_pc, op_32, 0);
codegen_check_seg_write(block, ir, target_seg);
uop_MEM_STORE_SINGLE(ir, ireg_seg_base(target_seg), IREG_eaaddr, IREG_ST(0));
uop_FP_ENTER(ir);
uop_MOV_IMM(ir, IREG_oldpc, cpu_state.oldpc);
op_pc--;
target_seg = codegen_generate_ea(ir, op_ea_seg, fetchdat, op_ssegs, &op_pc, op_32, 0);
codegen_check_seg_write(block, ir, target_seg);
uop_MEM_STORE_SINGLE(ir, ireg_seg_base(target_seg), IREG_eaaddr, IREG_ST(0));
return op_pc+1;
return op_pc + 1;
}
uint32_t ropFSTPs(codeblock_t *block, ir_data_t *ir, uint8_t opcode, uint32_t fetchdat, uint32_t op_32, uint32_t op_pc)
uint32_t
ropFSTPs(codeblock_t *block, ir_data_t *ir, uint8_t opcode, uint32_t fetchdat, uint32_t op_32, uint32_t op_pc)
{
x86seg *target_seg;
x86seg *target_seg;
uop_FP_ENTER(ir);
uop_MOV_IMM(ir, IREG_oldpc, cpu_state.oldpc);
op_pc--;
target_seg = codegen_generate_ea(ir, op_ea_seg, fetchdat, op_ssegs, &op_pc, op_32, 0);
codegen_check_seg_write(block, ir, target_seg);
uop_MEM_STORE_SINGLE(ir, ireg_seg_base(target_seg), IREG_eaaddr, IREG_ST(0));
uop_MOV_IMM(ir, IREG_tag(0), TAG_EMPTY);
fpu_POP(block, ir);
uop_FP_ENTER(ir);
uop_MOV_IMM(ir, IREG_oldpc, cpu_state.oldpc);
op_pc--;
target_seg = codegen_generate_ea(ir, op_ea_seg, fetchdat, op_ssegs, &op_pc, op_32, 0);
codegen_check_seg_write(block, ir, target_seg);
uop_MEM_STORE_SINGLE(ir, ireg_seg_base(target_seg), IREG_eaaddr, IREG_ST(0));
uop_MOV_IMM(ir, IREG_tag(0), TAG_EMPTY);
fpu_POP(block, ir);
return op_pc+1;
return op_pc + 1;
}
uint32_t ropFSTd(codeblock_t *block, ir_data_t *ir, uint8_t opcode, uint32_t fetchdat, uint32_t op_32, uint32_t op_pc)
uint32_t
ropFSTd(codeblock_t *block, ir_data_t *ir, uint8_t opcode, uint32_t fetchdat, uint32_t op_32, uint32_t op_pc)
{
x86seg *target_seg;
x86seg *target_seg;
uop_FP_ENTER(ir);
uop_MOV_IMM(ir, IREG_oldpc, cpu_state.oldpc);
op_pc--;
target_seg = codegen_generate_ea(ir, op_ea_seg, fetchdat, op_ssegs, &op_pc, op_32, 0);
codegen_check_seg_write(block, ir, target_seg);
CHECK_SEG_LIMITS(block, ir, target_seg, IREG_eaaddr, 7);
uop_MEM_STORE_DOUBLE(ir, ireg_seg_base(target_seg), IREG_eaaddr, IREG_ST(0));
uop_FP_ENTER(ir);
uop_MOV_IMM(ir, IREG_oldpc, cpu_state.oldpc);
op_pc--;
target_seg = codegen_generate_ea(ir, op_ea_seg, fetchdat, op_ssegs, &op_pc, op_32, 0);
codegen_check_seg_write(block, ir, target_seg);
CHECK_SEG_LIMITS(block, ir, target_seg, IREG_eaaddr, 7);
uop_MEM_STORE_DOUBLE(ir, ireg_seg_base(target_seg), IREG_eaaddr, IREG_ST(0));
return op_pc+1;
return op_pc + 1;
}
uint32_t ropFSTPd(codeblock_t *block, ir_data_t *ir, uint8_t opcode, uint32_t fetchdat, uint32_t op_32, uint32_t op_pc)
uint32_t
ropFSTPd(codeblock_t *block, ir_data_t *ir, uint8_t opcode, uint32_t fetchdat, uint32_t op_32, uint32_t op_pc)
{
x86seg *target_seg;
x86seg *target_seg;
uop_FP_ENTER(ir);
uop_MOV_IMM(ir, IREG_oldpc, cpu_state.oldpc);
op_pc--;
target_seg = codegen_generate_ea(ir, op_ea_seg, fetchdat, op_ssegs, &op_pc, op_32, 0);
codegen_check_seg_write(block, ir, target_seg);
CHECK_SEG_LIMITS(block, ir, target_seg, IREG_eaaddr, 7);
uop_MEM_STORE_DOUBLE(ir, ireg_seg_base(target_seg), IREG_eaaddr, IREG_ST(0));
uop_MOV_IMM(ir, IREG_tag(0), TAG_EMPTY);
fpu_POP(block, ir);
uop_FP_ENTER(ir);
uop_MOV_IMM(ir, IREG_oldpc, cpu_state.oldpc);
op_pc--;
target_seg = codegen_generate_ea(ir, op_ea_seg, fetchdat, op_ssegs, &op_pc, op_32, 0);
codegen_check_seg_write(block, ir, target_seg);
CHECK_SEG_LIMITS(block, ir, target_seg, IREG_eaaddr, 7);
uop_MEM_STORE_DOUBLE(ir, ireg_seg_base(target_seg), IREG_eaaddr, IREG_ST(0));
uop_MOV_IMM(ir, IREG_tag(0), TAG_EMPTY);
fpu_POP(block, ir);
return op_pc+1;
return op_pc + 1;
}
uint32_t ropFILDw(codeblock_t *block, ir_data_t *ir, uint8_t opcode, uint32_t fetchdat, uint32_t op_32, uint32_t op_pc)
uint32_t
ropFILDw(codeblock_t *block, ir_data_t *ir, uint8_t opcode, uint32_t fetchdat, uint32_t op_32, uint32_t op_pc)
{
x86seg *target_seg;
x86seg *target_seg;
uop_FP_ENTER(ir);
uop_MOV_IMM(ir, IREG_oldpc, cpu_state.oldpc);
op_pc--;
target_seg = codegen_generate_ea(ir, op_ea_seg, fetchdat, op_ssegs, &op_pc, op_32, 0);
codegen_check_seg_read(block, ir, target_seg);
uop_MEM_LOAD_REG(ir, IREG_temp0_W, ireg_seg_base(target_seg), IREG_eaaddr);
uop_MOV_DOUBLE_INT(ir, IREG_ST(-1), IREG_temp0_W);
uop_MOV_IMM(ir, IREG_tag(-1), TAG_VALID);
fpu_PUSH(block, ir);
uop_FP_ENTER(ir);
uop_MOV_IMM(ir, IREG_oldpc, cpu_state.oldpc);
op_pc--;
target_seg = codegen_generate_ea(ir, op_ea_seg, fetchdat, op_ssegs, &op_pc, op_32, 0);
codegen_check_seg_read(block, ir, target_seg);
uop_MEM_LOAD_REG(ir, IREG_temp0_W, ireg_seg_base(target_seg), IREG_eaaddr);
uop_MOV_DOUBLE_INT(ir, IREG_ST(-1), IREG_temp0_W);
uop_MOV_IMM(ir, IREG_tag(-1), TAG_VALID);
fpu_PUSH(block, ir);
return op_pc+1;
return op_pc + 1;
}
uint32_t ropFILDl(codeblock_t *block, ir_data_t *ir, uint8_t opcode, uint32_t fetchdat, uint32_t op_32, uint32_t op_pc)
uint32_t
ropFILDl(codeblock_t *block, ir_data_t *ir, uint8_t opcode, uint32_t fetchdat, uint32_t op_32, uint32_t op_pc)
{
x86seg *target_seg;
x86seg *target_seg;
uop_FP_ENTER(ir);
uop_MOV_IMM(ir, IREG_oldpc, cpu_state.oldpc);
op_pc--;
target_seg = codegen_generate_ea(ir, op_ea_seg, fetchdat, op_ssegs, &op_pc, op_32, 0);
codegen_check_seg_read(block, ir, target_seg);
uop_MEM_LOAD_REG(ir, IREG_temp0, ireg_seg_base(target_seg), IREG_eaaddr);
uop_MOV_DOUBLE_INT(ir, IREG_ST(-1), IREG_temp0);
uop_MOV_IMM(ir, IREG_tag(-1), TAG_VALID);
fpu_PUSH(block, ir);
uop_FP_ENTER(ir);
uop_MOV_IMM(ir, IREG_oldpc, cpu_state.oldpc);
op_pc--;
target_seg = codegen_generate_ea(ir, op_ea_seg, fetchdat, op_ssegs, &op_pc, op_32, 0);
codegen_check_seg_read(block, ir, target_seg);
uop_MEM_LOAD_REG(ir, IREG_temp0, ireg_seg_base(target_seg), IREG_eaaddr);
uop_MOV_DOUBLE_INT(ir, IREG_ST(-1), IREG_temp0);
uop_MOV_IMM(ir, IREG_tag(-1), TAG_VALID);
fpu_PUSH(block, ir);
return op_pc+1;
return op_pc + 1;
}
uint32_t ropFILDq(codeblock_t *block, ir_data_t *ir, uint8_t opcode, uint32_t fetchdat, uint32_t op_32, uint32_t op_pc)
uint32_t
ropFILDq(codeblock_t *block, ir_data_t *ir, uint8_t opcode, uint32_t fetchdat, uint32_t op_32, uint32_t op_pc)
{
x86seg *target_seg;
x86seg *target_seg;
uop_FP_ENTER(ir);
uop_MOV_IMM(ir, IREG_oldpc, cpu_state.oldpc);
op_pc--;
target_seg = codegen_generate_ea(ir, op_ea_seg, fetchdat, op_ssegs, &op_pc, op_32, 0);
codegen_check_seg_read(block, ir, target_seg);
uop_MEM_LOAD_REG(ir, IREG_ST_i64(-1), ireg_seg_base(target_seg), IREG_eaaddr);
uop_MOV_DOUBLE_INT(ir, IREG_ST(-1), IREG_ST_i64(-1));
uop_MOV_IMM(ir, IREG_tag(-1), TAG_VALID | TAG_UINT64);
fpu_PUSH(block, ir);
uop_FP_ENTER(ir);
uop_MOV_IMM(ir, IREG_oldpc, cpu_state.oldpc);
op_pc--;
target_seg = codegen_generate_ea(ir, op_ea_seg, fetchdat, op_ssegs, &op_pc, op_32, 0);
codegen_check_seg_read(block, ir, target_seg);
uop_MEM_LOAD_REG(ir, IREG_ST_i64(-1), ireg_seg_base(target_seg), IREG_eaaddr);
uop_MOV_DOUBLE_INT(ir, IREG_ST(-1), IREG_ST_i64(-1));
uop_MOV_IMM(ir, IREG_tag(-1), TAG_VALID | TAG_UINT64);
fpu_PUSH(block, ir);
return op_pc+1;
return op_pc + 1;
}
uint32_t ropFISTw(codeblock_t *block, ir_data_t *ir, uint8_t opcode, uint32_t fetchdat, uint32_t op_32, uint32_t op_pc)
uint32_t
ropFISTw(codeblock_t *block, ir_data_t *ir, uint8_t opcode, uint32_t fetchdat, uint32_t op_32, uint32_t op_pc)
{
x86seg *target_seg;
x86seg *target_seg;
uop_FP_ENTER(ir);
uop_MOV_IMM(ir, IREG_oldpc, cpu_state.oldpc);
op_pc--;
target_seg = codegen_generate_ea(ir, op_ea_seg, fetchdat, op_ssegs, &op_pc, op_32, 0);
codegen_check_seg_write(block, ir, target_seg);
uop_MOV_INT_DOUBLE(ir, IREG_temp0_W, IREG_ST(0));
uop_MEM_STORE_REG(ir, ireg_seg_base(target_seg), IREG_eaaddr, IREG_temp0_W);
uop_MOV_IMM(ir, IREG_tag(0), TAG_EMPTY);
uop_FP_ENTER(ir);
uop_MOV_IMM(ir, IREG_oldpc, cpu_state.oldpc);
op_pc--;
target_seg = codegen_generate_ea(ir, op_ea_seg, fetchdat, op_ssegs, &op_pc, op_32, 0);
codegen_check_seg_write(block, ir, target_seg);
uop_MOV_INT_DOUBLE(ir, IREG_temp0_W, IREG_ST(0));
uop_MEM_STORE_REG(ir, ireg_seg_base(target_seg), IREG_eaaddr, IREG_temp0_W);
uop_MOV_IMM(ir, IREG_tag(0), TAG_EMPTY);
return op_pc+1;
return op_pc + 1;
}
uint32_t ropFISTPw(codeblock_t *block, ir_data_t *ir, uint8_t opcode, uint32_t fetchdat, uint32_t op_32, uint32_t op_pc)
uint32_t
ropFISTPw(codeblock_t *block, ir_data_t *ir, uint8_t opcode, uint32_t fetchdat, uint32_t op_32, uint32_t op_pc)
{
x86seg *target_seg;
x86seg *target_seg;
uop_FP_ENTER(ir);
uop_MOV_IMM(ir, IREG_oldpc, cpu_state.oldpc);
op_pc--;
target_seg = codegen_generate_ea(ir, op_ea_seg, fetchdat, op_ssegs, &op_pc, op_32, 0);
codegen_check_seg_write(block, ir, target_seg);
uop_MOV_INT_DOUBLE(ir, IREG_temp0_W, IREG_ST(0));
uop_MEM_STORE_REG(ir, ireg_seg_base(target_seg), IREG_eaaddr, IREG_temp0_W);
uop_MOV_IMM(ir, IREG_tag(0), TAG_EMPTY);
fpu_POP(block, ir);
uop_FP_ENTER(ir);
uop_MOV_IMM(ir, IREG_oldpc, cpu_state.oldpc);
op_pc--;
target_seg = codegen_generate_ea(ir, op_ea_seg, fetchdat, op_ssegs, &op_pc, op_32, 0);
codegen_check_seg_write(block, ir, target_seg);
uop_MOV_INT_DOUBLE(ir, IREG_temp0_W, IREG_ST(0));
uop_MEM_STORE_REG(ir, ireg_seg_base(target_seg), IREG_eaaddr, IREG_temp0_W);
uop_MOV_IMM(ir, IREG_tag(0), TAG_EMPTY);
fpu_POP(block, ir);
return op_pc+1;
return op_pc + 1;
}
uint32_t ropFISTl(codeblock_t *block, ir_data_t *ir, uint8_t opcode, uint32_t fetchdat, uint32_t op_32, uint32_t op_pc)
uint32_t
ropFISTl(codeblock_t *block, ir_data_t *ir, uint8_t opcode, uint32_t fetchdat, uint32_t op_32, uint32_t op_pc)
{
x86seg *target_seg;
x86seg *target_seg;
uop_FP_ENTER(ir);
uop_MOV_IMM(ir, IREG_oldpc, cpu_state.oldpc);
op_pc--;
target_seg = codegen_generate_ea(ir, op_ea_seg, fetchdat, op_ssegs, &op_pc, op_32, 0);
codegen_check_seg_write(block, ir, target_seg);
uop_MOV_INT_DOUBLE(ir, IREG_temp0, IREG_ST(0));
uop_MEM_STORE_REG(ir, ireg_seg_base(target_seg), IREG_eaaddr, IREG_temp0);
uop_MOV_IMM(ir, IREG_tag(0), TAG_EMPTY);
uop_FP_ENTER(ir);
uop_MOV_IMM(ir, IREG_oldpc, cpu_state.oldpc);
op_pc--;
target_seg = codegen_generate_ea(ir, op_ea_seg, fetchdat, op_ssegs, &op_pc, op_32, 0);
codegen_check_seg_write(block, ir, target_seg);
uop_MOV_INT_DOUBLE(ir, IREG_temp0, IREG_ST(0));
uop_MEM_STORE_REG(ir, ireg_seg_base(target_seg), IREG_eaaddr, IREG_temp0);
uop_MOV_IMM(ir, IREG_tag(0), TAG_EMPTY);
return op_pc+1;
return op_pc + 1;
}
uint32_t ropFISTPl(codeblock_t *block, ir_data_t *ir, uint8_t opcode, uint32_t fetchdat, uint32_t op_32, uint32_t op_pc)
uint32_t
ropFISTPl(codeblock_t *block, ir_data_t *ir, uint8_t opcode, uint32_t fetchdat, uint32_t op_32, uint32_t op_pc)
{
x86seg *target_seg;
x86seg *target_seg;
uop_FP_ENTER(ir);
uop_MOV_IMM(ir, IREG_oldpc, cpu_state.oldpc);
op_pc--;
target_seg = codegen_generate_ea(ir, op_ea_seg, fetchdat, op_ssegs, &op_pc, op_32, 0);
codegen_check_seg_write(block, ir, target_seg);
uop_MOV_INT_DOUBLE(ir, IREG_temp0, IREG_ST(0));
uop_MEM_STORE_REG(ir, ireg_seg_base(target_seg), IREG_eaaddr, IREG_temp0);
uop_MOV_IMM(ir, IREG_tag(0), TAG_EMPTY);
fpu_POP(block, ir);
uop_FP_ENTER(ir);
uop_MOV_IMM(ir, IREG_oldpc, cpu_state.oldpc);
op_pc--;
target_seg = codegen_generate_ea(ir, op_ea_seg, fetchdat, op_ssegs, &op_pc, op_32, 0);
codegen_check_seg_write(block, ir, target_seg);
uop_MOV_INT_DOUBLE(ir, IREG_temp0, IREG_ST(0));
uop_MEM_STORE_REG(ir, ireg_seg_base(target_seg), IREG_eaaddr, IREG_temp0);
uop_MOV_IMM(ir, IREG_tag(0), TAG_EMPTY);
fpu_POP(block, ir);
return op_pc+1;
return op_pc + 1;
}
uint32_t ropFISTPq(codeblock_t *block, ir_data_t *ir, uint8_t opcode, uint32_t fetchdat, uint32_t op_32, uint32_t op_pc)
uint32_t
ropFISTPq(codeblock_t *block, ir_data_t *ir, uint8_t opcode, uint32_t fetchdat, uint32_t op_32, uint32_t op_pc)
{
x86seg *target_seg;
x86seg *target_seg;
uop_FP_ENTER(ir);
uop_MOV_IMM(ir, IREG_oldpc, cpu_state.oldpc);
op_pc--;
target_seg = codegen_generate_ea(ir, op_ea_seg, fetchdat, op_ssegs, &op_pc, op_32, 0);
codegen_check_seg_write(block, ir, target_seg);
uop_MOV_INT_DOUBLE_64(ir, IREG_temp0_Q, IREG_ST(0), IREG_ST_i64(0), IREG_tag(0));
uop_MEM_STORE_REG(ir, ireg_seg_base(target_seg), IREG_eaaddr, IREG_temp0_Q);
uop_MOV_IMM(ir, IREG_tag(0), TAG_EMPTY);
fpu_POP(block, ir);
uop_FP_ENTER(ir);
uop_MOV_IMM(ir, IREG_oldpc, cpu_state.oldpc);
op_pc--;
target_seg = codegen_generate_ea(ir, op_ea_seg, fetchdat, op_ssegs, &op_pc, op_32, 0);
codegen_check_seg_write(block, ir, target_seg);
uop_MOV_INT_DOUBLE_64(ir, IREG_temp0_Q, IREG_ST(0), IREG_ST_i64(0), IREG_tag(0));
uop_MEM_STORE_REG(ir, ireg_seg_base(target_seg), IREG_eaaddr, IREG_temp0_Q);
uop_MOV_IMM(ir, IREG_tag(0), TAG_EMPTY);
fpu_POP(block, ir);
return op_pc+1;
return op_pc + 1;
}