CbC/old/device: mc-code-ia32.c annotate

annotate mc-code-ia32.c @ 243:c311c26e006a

*** empty log message ***

author	kono
date	Thu, 06 May 2004 00:01:40 +0900
parents	c68f618b71f9
children	39e28d6cfa56

rev	line source
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1 /* Micro-C Code Generatation Part for intel386 */
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	2 /* $Id$ */
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	3
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	4 #define EXTERN extern
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	5 #include "mc.h"
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	6 #include "mc-codegen.h"
93 8f5d61239b93 * empty log message * kono parents: 92 diff changeset	7 #include "mc-code.h"
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	8
173 3b33c7daae95 * empty log message * kono parents: 168 diff changeset	9 char *l_include_path[] = {
3b33c7daae95 * empty log message * kono parents: 168 diff changeset	10 "/usr/include/",
182 e1e9ec8c96a7 some fix kono parents: 173 diff changeset	11 "/usr/include/linux/",
225 8675ea3d2c7f * empty log message * kono parents: 224 diff changeset	12 "/usr/include/diet/",
8675ea3d2c7f * empty log message * kono parents: 224 diff changeset	13 "/usr/lib/gcc-lib/i386-linux/2.95.4/include/",
183 1d80ad165831 recursive macros kono parents: 182 diff changeset	14 "/usr/lib/gcc-lib/i386-redhat-linux/2.96/include/",
173 3b33c7daae95 * empty log message * kono parents: 168 diff changeset	15 0
3b33c7daae95 * empty log message * kono parents: 168 diff changeset	16 };
3b33c7daae95 * empty log message * kono parents: 168 diff changeset	17
3b33c7daae95 * empty log message * kono parents: 168 diff changeset	18
94 1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	19 #define SAVE_STACKS 1
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	20
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	21 #define TEXT_EMIT_MODE 0
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	22 #define DATA_EMIT_MODE 1
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	23 #define RODATA_EMIT_MODE 2
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	24
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	25 static int output_mode = TEXT_EMIT_MODE;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	26 static int data_alignment = 0;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	27
224 82a55cc6b5fc * empty log message * kono parents: 219 diff changeset	28 static int creg;
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	29 static int lreg;
224 82a55cc6b5fc * empty log message * kono parents: 219 diff changeset	30
238 d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	31 int code_lassop_p = 0;
d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	32
119 b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	33 int size_of_int = 4;
165 6409ff6bc219 short kono parents: 163 diff changeset	34 int size_of_short = 2;
119 b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	35 int size_of_float = 4;
b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	36 int size_of_double = 8;
b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	37 int size_of_longlong = 8;
b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	38 int endian = 0;
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	39 static int MAX_REGISTER=6; /* intel386�Υ쥸��6�ĤޤǻȤ�*/
119 b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	40 #define REAL_MAX_REGISTER 8 /* intel386�Υ쥸��8�ĤȤ��*/
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	41 static int MAX_DATA_REG=4;
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	42 static int MAX_POINTER=3;
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	43 // static int MAX_REGISTGER_VAR=2;
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	44 // static int MAX_FREGISTER=1;
119 b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	45
b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	46 #define MAX_FPU_STACK 7
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	47 #define REG_VAR 3
119 b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	48
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	49 // static int MAX_INPUT_REGISTER_VAR = 0;
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	50 static int MAX_CODE_INPUT_REGISTER_VAR = 2;
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	51 // static int MAX_INPUT_DREGISTER_VAR = 0;
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	52 // static int MAX_INPUT_FREGISTER_VAR = 0;
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	53 // static int MAX_CODE_INPUT_DREGISTER_VAR = 0;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	54
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	55 static int reg_sp; /* REGister Stack-Pointer */
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	56 static int reg_stack[MAX_MAX]; /* �ºݤΥ쥸��ΰ� */
138 e6e77af048a1 float/dobule configuration kono parents: 137 diff changeset	57
e6e77af048a1 float/dobule configuration kono parents: 137 diff changeset	58 /* floating point registers */
e6e77af048a1 float/dobule configuration kono parents: 137 diff changeset	59
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	60 static int freg_sp; /* floating point REGister Stack-Pointer */
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	61 static int freg_stack[MAX_MAX]; /* �ºݤΥ쥸��ΰ� */
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	62
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	63 static int reg_var;
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	64 static int regvar[2];
138 e6e77af048a1 float/dobule configuration kono parents: 137 diff changeset	65
e6e77af048a1 float/dobule configuration kono parents: 137 diff changeset	66
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	67 /*
128 d497c39add36 arg.c works (?) kono parents: 127 diff changeset	68 -28 -8 local2
d497c39add36 arg.c works (?) kono parents: 127 diff changeset	69 -24 -4 local1
d497c39add36 arg.c works (?) kono parents: 127 diff changeset	70 -20 8 arg3
d497c39add36 arg.c works (?) kono parents: 127 diff changeset	71 -16 4 arg2
d497c39add36 arg.c works (?) kono parents: 127 diff changeset	72 -12 0 arg1
d497c39add36 arg.c works (?) kono parents: 127 diff changeset	73 local2 -20 4 -8 (%edi)
d497c39add36 arg.c works (?) kono parents: 127 diff changeset	74 local1 <-- -16 0 local variable -4 (%esi)
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	75 %edi -12 <- disp_offset %ebp
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	76 %esi -8
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	77 %ebx -4
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	78 %ebp = %esp 0
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	79 %eip 4 <- arg_offset
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	80 arg1 8 0
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	81 arg2 12 4
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	82 see enter/enter1/leave see code_enter
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	83 */
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	84 static int arg_offset = 8;
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	85 static int disp_offset = -12;
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	86 static int func_disp_offset = -12;
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	87 static int code_disp_offset = 0;
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	88 // static int jump_offset = 0;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	89
119 b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	90 static int code_disp_label;
b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	91 static int func_disp_label;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	92
119 b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	93 static int
b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	94 lvar(int l)
b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	95 {
b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	96 if (is_code(fnptr)) {
b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	97 return l+code_disp_offset;
b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	98 } else if (l<0) {
b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	99 return l+disp_offset;
b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	100 } else {
b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	101 return l+arg_offset;
b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	102 }
b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	103 }
99 53899975154c * empty log message * kono parents: 98 diff changeset	104
95 185d2cc6a3a9 * empty log message * kono parents: 94 diff changeset	105 /*
185d2cc6a3a9 * empty log message * kono parents: 94 diff changeset	106 creg currrent virtual register
185d2cc6a3a9 * empty log message * kono parents: 94 diff changeset	107 dreg spare virtual register
185d2cc6a3a9 * empty log message * kono parents: 94 diff changeset	108
185d2cc6a3a9 * empty log message * kono parents: 94 diff changeset	109 rname[creg] currrent real register
185d2cc6a3a9 * empty log message * kono parents: 94 diff changeset	110 rname[dreg] spare real register
185d2cc6a3a9 * empty log message * kono parents: 94 diff changeset	111
185d2cc6a3a9 * empty log message * kono parents: 94 diff changeset	112 regs[] virtual register usage
185d2cc6a3a9 * empty log message * kono parents: 94 diff changeset	113 regv[] value in virtual register flag
185d2cc6a3a9 * empty log message * kono parents: 94 diff changeset	114
185d2cc6a3a9 * empty log message * kono parents: 94 diff changeset	115 reg_name[rname[creg]]
185d2cc6a3a9 * empty log message * kono parents: 94 diff changeset	116
185d2cc6a3a9 * empty log message * kono parents: 94 diff changeset	117 freg current floating point register
185d2cc6a3a9 * empty log message * kono parents: 94 diff changeset	118 fregv calue in floating point register
185d2cc6a3a9 * empty log message * kono parents: 94 diff changeset	119 */
185d2cc6a3a9 * empty log message * kono parents: 94 diff changeset	120
185d2cc6a3a9 * empty log message * kono parents: 94 diff changeset	121 static int dreg; /* general temporal register */
185d2cc6a3a9 * empty log message * kono parents: 94 diff changeset	122
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	123 #define REAL_MAX_LREGISTER 2
238 d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	124 static int ia32regs[REAL_MAX_REGISTER+REAL_MAX_LREGISTER];
d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	125 static int ia32regv[REAL_MAX_REGISTER+REAL_MAX_LREGISTER];
d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	126 static int ia32rname[REAL_MAX_REGISTER+REAL_MAX_LREGISTER];
95 185d2cc6a3a9 * empty log message * kono parents: 94 diff changeset	127
205 a50f90d0b63a * empty log message * kono parents: 204 diff changeset	128 static int *regv = ia32regv;
a50f90d0b63a * empty log message * kono parents: 204 diff changeset	129 static int *regs = ia32regs;
95 185d2cc6a3a9 * empty log message * kono parents: 94 diff changeset	130 static int *rname = ia32rname;
185d2cc6a3a9 * empty log message * kono parents: 94 diff changeset	131
205 a50f90d0b63a * empty log message * kono parents: 204 diff changeset	132 static int ia32fregs[1];
a50f90d0b63a * empty log message * kono parents: 204 diff changeset	133 static int ia32fregv[1];
95 185d2cc6a3a9 * empty log message * kono parents: 94 diff changeset	134
205 a50f90d0b63a * empty log message * kono parents: 204 diff changeset	135 static int freg;
a50f90d0b63a * empty log message * kono parents: 204 diff changeset	136 static int *fregv = ia32fregv;
a50f90d0b63a * empty log message * kono parents: 204 diff changeset	137 static int *fregs = ia32fregs;
95 185d2cc6a3a9 * empty log message * kono parents: 94 diff changeset	138
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	139
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	140 #define REG_EAX 0
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	141 #define REG_EBX 1
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	142 #define REG_ECX 2
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	143 #define REG_EDX 3
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	144 #define REG_ESI 4
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	145 #define REG_EDI 5
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	146 #define REG_EBP 6
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	147 #define REG_ESP 7
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	148 #define is_int_reg(reg) (reg<REG_EBP)
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	149 #define REG_LCREG 8
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	150 #define REG_L 9
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	151
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	152
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	153 #define DATA_REG 0
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	154 #define POINTER_REG 3
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	155 static char *reg_name[8];
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	156 static char *reg_name_l[4];
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	157 static char *reg_name_w[4];
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	158
93 8f5d61239b93 * empty log message * kono parents: 92 diff changeset	159 static void use_register(int virt, int real, int move);
8f5d61239b93 * empty log message * kono parents: 92 diff changeset	160 static int virtual(int real);
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	161 static void shift(char *op, int reg,int creg);
c575422d8b6e * empty log message * kono parents: 230 diff changeset	162 static void ld_indexx(int byte, int n, int xreg,int reg,int sign);
93 8f5d61239b93 * empty log message * kono parents: 92 diff changeset	163 static void data_mode(char *name);
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	164 static int edx_setup(int rreg);
93 8f5d61239b93 * empty log message * kono parents: 92 diff changeset	165 static void edx_cleanup();
8f5d61239b93 * empty log message * kono parents: 92 diff changeset	166 static void local_table(void);
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	167 #if FLOAT_CODE
93 8f5d61239b93 * empty log message * kono parents: 92 diff changeset	168 static char * fload(int d);
8f5d61239b93 * empty log message * kono parents: 92 diff changeset	169 static int code_d1(double d);
8f5d61239b93 * empty log message * kono parents: 92 diff changeset	170 static int code_d2(double d);
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	171 static void code_save_fstacks();
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	172 #endif
94 1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	173 static void code_save_stacks();
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	174
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	175 #define use_int(reg) if (reg==-1) reg=use_int0()
242 c68f618b71f9 ia32 long long done. some error remains. kono parents: 241 diff changeset	176 static int use_int0() { lreg = 0; if (!is_int_reg(creg)) { creg = virtual(REG_EBX); regs[creg]=1;} return creg; }
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	177
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	178 #define use_longlong(reg) reg=use_longlong0(reg)
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	179 static int
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	180 use_longlong0(int reg)
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	181 {
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	182 int i;
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	183 if (reg==USE_CREG)
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	184 reg = REG_LCREG;
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	185 if (!lreg) {
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	186 code_save_stacks();
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	187 // make edx,eax free
240 b59364f5b030 * empty log message * kono parents: 239 diff changeset	188 use_register(creg,REG_EBX,regv[creg]);
b59364f5b030 * empty log message * kono parents: 239 diff changeset	189 use_register(dreg,REG_ECX,regv[dreg]);
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	190 for(i=0;i<reg_var;i++)
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	191 use_register(regvar[i],REG_ESI+i,1);
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	192 }
240 b59364f5b030 * empty log message * kono parents: 239 diff changeset	193 creg = lreg = reg;
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	194 return lreg;
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	195 }
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	196
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	197 char *
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	198 l_edx(int i) {
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	199 return i==REG_L?"%edi":"%edx";
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	200 }
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	201 char *
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	202 l_eax(int i) {
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	203 return i==REG_L?"%esi":"%eax";
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	204 }
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	205
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	206
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	207 void
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	208 code_init(void)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	209 {
173 3b33c7daae95 * empty log message * kono parents: 168 diff changeset	210 macro_define("__i386__ 1\n");
182 e1e9ec8c96a7 some fix kono parents: 173 diff changeset	211 macro_define("__LITTLE_ENDIAN__ 1\n");
e1e9ec8c96a7 some fix kono parents: 173 diff changeset	212 macro_define("__STDC__ 1\n");
e1e9ec8c96a7 some fix kono parents: 173 diff changeset	213 macro_define("size_t int\n");
e1e9ec8c96a7 some fix kono parents: 173 diff changeset	214 macro_define("__externsion__\n");
e1e9ec8c96a7 some fix kono parents: 173 diff changeset	215 macro_define("__flexarr\n");
183 1d80ad165831 recursive macros kono parents: 182 diff changeset	216 macro_define("__builtin_va_list int*\n");
1d80ad165831 recursive macros kono parents: 182 diff changeset	217 macro_define("wchar_t int\n");
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	218 // macro_define("__THROW\n");
c575422d8b6e * empty log message * kono parents: 230 diff changeset	219 macro_define("__gnuc_va_list int*\n");
173 3b33c7daae95 * empty log message * kono parents: 168 diff changeset	220
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	221 arg_offset = 8;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	222 func_disp_offset = -12;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	223 disp_offset = -12;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	224 size_of_int = 4;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	225 endian = 0;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	226 MAX_REGISTER=6;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	227 MAX_DATA_REG=4;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	228 MAX_POINTER=3;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	229 MAX_REGISTER_VAR=2;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	230
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	231 reg_name[REG_EAX] = "%eax";
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	232 reg_name[REG_EBX] = "%ebx";
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	233 reg_name[REG_ECX] = "%ecx";
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	234 reg_name[REG_EDX] = "%edx";
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	235 reg_name[REG_ESI] = "%esi";
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	236 reg_name[REG_EDI] = "%edi";
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	237 reg_name[REG_EBP] = "%ebp";
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	238 reg_name[REG_ESP] = "%esp";
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	239 reg_name_l[REG_EAX] = "%al";
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	240 reg_name_l[REG_EBX] = "%bl";
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	241 reg_name_l[REG_ECX] = "%cl";
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	242 reg_name_l[REG_EDX] = "%dl";
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	243 reg_name_w[REG_EAX] = "%ax";
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	244 reg_name_w[REG_EBX] = "%bx";
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	245 reg_name_w[REG_ECX] = "%cx";
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	246 reg_name_w[REG_EDX] = "%dx";
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	247
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	248 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	249
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	250 char *
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	251 register_name(int i,int byte)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	252 {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	253 if (i<0) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	254 error(REG_ERR);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	255 return "%eax";
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	256 }
165 6409ff6bc219 short kono parents: 163 diff changeset	257 if (byte==1 && rname[i] <= REG_EDX) {
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	258 return reg_name_l[rname[i]];
165 6409ff6bc219 short kono parents: 163 diff changeset	259 } else if (byte==size_of_short && rname[i] <= REG_EDX) {
6409ff6bc219 short kono parents: 163 diff changeset	260 return reg_name_w[rname[i]];
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	261 } else {
168 b1297c82e926 cpostinc removal kono parents: 167 diff changeset	262 return reg_name[rname[i]]; /* 0 or 4 means int */
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	263 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	264 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	265
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	266 /*
147 cb7aa0089681 creg/ireg done for powerpc. kono parents: 144 diff changeset	267 int use_int(int i) { return i;}
cb7aa0089681 creg/ireg done for powerpc. kono parents: 144 diff changeset	268 int use_float(int i) { return i;}
cb7aa0089681 creg/ireg done for powerpc. kono parents: 144 diff changeset	269 int use_double(int i) { return i;}
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	270 int use_longlong(int i) { return i; }
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	271 */
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	272
147 cb7aa0089681 creg/ireg done for powerpc. kono parents: 144 diff changeset	273
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	274 void
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	275 gexpr_code_init(void){
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	276 use_register(creg,REG_EAX,0);
94 1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	277 regv[creg]=0;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	278 regv[dreg]=0;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	279 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	280
147 cb7aa0089681 creg/ireg done for powerpc. kono parents: 144 diff changeset	281 void
cb7aa0089681 creg/ireg done for powerpc. kono parents: 144 diff changeset	282 code_gexpr(int e){
cb7aa0089681 creg/ireg done for powerpc. kono parents: 144 diff changeset	283 }
cb7aa0089681 creg/ireg done for powerpc. kono parents: 144 diff changeset	284
89 917947ffeb7c power pc version kono parents: 87 diff changeset	285 int
917947ffeb7c power pc version kono parents: 87 diff changeset	286 get_register(void)
917947ffeb7c power pc version kono parents: 87 diff changeset	287 { /* �Ȥ��Ƥ��ʤ��쥸��Ĵ�٤� */
917947ffeb7c power pc version kono parents: 87 diff changeset	288 int i;
917947ffeb7c power pc version kono parents: 87 diff changeset	289 for(i=0;i<MAX_REGISTER;i++) {
917947ffeb7c power pc version kono parents: 87 diff changeset	290 if (! regs[i]) { /* �Ȥ��Ƥ��ʤ��ʤ� */
917947ffeb7c power pc version kono parents: 87 diff changeset	291 regs[i]=1; /* ��Υ쥸��Ȥ��Ȥ�� */
917947ffeb7c power pc version kono parents: 87 diff changeset	292 return i; /* ��ξ��ɽ��ֹ��֤� */
917947ffeb7c power pc version kono parents: 87 diff changeset	293 }
917947ffeb7c power pc version kono parents: 87 diff changeset	294 }
917947ffeb7c power pc version kono parents: 87 diff changeset	295 return -1; /* ��Ƥ��꤬�ʤ��ʤ顢��ɽ�� -1 ��֤� */
917947ffeb7c power pc version kono parents: 87 diff changeset	296 }
917947ffeb7c power pc version kono parents: 87 diff changeset	297
917947ffeb7c power pc version kono parents: 87 diff changeset	298 void
917947ffeb7c power pc version kono parents: 87 diff changeset	299 free_register(int i) { /* ��ʤ��ʤä��쥸�� */
917947ffeb7c power pc version kono parents: 87 diff changeset	300 regv[i]=regs[i]=0;
238 d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	301 if(i==REAL_MAX_REGISTER) {
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	302 regv[virtual(REG_ESI)]=regv[virtual(REG_EDI)]=0;
238 d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	303 }
89 917947ffeb7c power pc version kono parents: 87 diff changeset	304 }
917947ffeb7c power pc version kono parents: 87 diff changeset	305
99 53899975154c * empty log message * kono parents: 98 diff changeset	306 int
126 1d1612fe705a * empty log message * kono parents: 123 diff changeset	307 get_input_register_var(int i,NMTBL *nptr,int is_code)
99 53899975154c * empty log message * kono parents: 98 diff changeset	308 {
126 1d1612fe705a * empty log message * kono parents: 123 diff changeset	309 if (is_code) {
1d1612fe705a * empty log message * kono parents: 123 diff changeset	310 if (i>=MAX_CODE_INPUT_REGISTER_VAR) return 0;
1d1612fe705a * empty log message * kono parents: 123 diff changeset	311 i = virtual(i+REG_ESI);
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	312 regs[i]=regv[i]=INPUT_REG;
126 1d1612fe705a * empty log message * kono parents: 123 diff changeset	313 return list3(REGISTER,i,(int)nptr);
1d1612fe705a * empty log message * kono parents: 123 diff changeset	314 } else {
1d1612fe705a * empty log message * kono parents: 123 diff changeset	315 return 0;
1d1612fe705a * empty log message * kono parents: 123 diff changeset	316 }
99 53899975154c * empty log message * kono parents: 98 diff changeset	317 }
103 f849af4b5ea9 * empty log message * kono parents: 102 diff changeset	318
99 53899975154c * empty log message * kono parents: 98 diff changeset	319 int
138 e6e77af048a1 float/dobule configuration kono parents: 137 diff changeset	320 get_input_dregister_var(int i,NMTBL *nptr,int is_code,int d)
99 53899975154c * empty log message * kono parents: 98 diff changeset	321 {
126 1d1612fe705a * empty log message * kono parents: 123 diff changeset	322 return 0;
99 53899975154c * empty log message * kono parents: 98 diff changeset	323 }
53899975154c * empty log message * kono parents: 98 diff changeset	324
53899975154c * empty log message * kono parents: 98 diff changeset	325 int
138 e6e77af048a1 float/dobule configuration kono parents: 137 diff changeset	326 get_dregister(int d)
99 53899975154c * empty log message * kono parents: 98 diff changeset	327 {
53899975154c * empty log message * kono parents: 98 diff changeset	328 return -1;
53899975154c * empty log message * kono parents: 98 diff changeset	329 }
53899975154c * empty log message * kono parents: 98 diff changeset	330
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	331 int
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	332 get_lregister_var(NMTBL *n)
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	333 {
238 d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	334 int h,l;
d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	335 h = virtual(REG_ESI);
d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	336 l = virtual(REG_EDI);
d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	337 if (regv[REAL_MAX_REGISTER]==0&&regs[h]==0&&regs[l]==0) {
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	338 regs[h]=regs[l]=REG_VAR;
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	339 regv[h]=regv[l]=REG_VAR;
238 d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	340 regv[REAL_MAX_REGISTER]=1;
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	341 reg_var=2; regvar[0]=h; regvar[1]=l;
240 b59364f5b030 * empty log message * kono parents: 239 diff changeset	342 return list2(LREGISTER,REG_L);
238 d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	343 }
204 4c614334f3d0 long long test parse kono parents: 203 diff changeset	344 return list2(LVAR,new_lvar(size_of_longlong));
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	345 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	346
205 a50f90d0b63a * empty log message * kono parents: 204 diff changeset	347 int
a50f90d0b63a * empty log message * kono parents: 204 diff changeset	348 get_lregister()
a50f90d0b63a * empty log message * kono parents: 204 diff changeset	349 {
a50f90d0b63a * empty log message * kono parents: 204 diff changeset	350 return -1;
a50f90d0b63a * empty log message * kono parents: 204 diff changeset	351 }
a50f90d0b63a * empty log message * kono parents: 204 diff changeset	352
a50f90d0b63a * empty log message * kono parents: 204 diff changeset	353
89 917947ffeb7c power pc version kono parents: 87 diff changeset	354 int
917947ffeb7c power pc version kono parents: 87 diff changeset	355 register_full(void)
917947ffeb7c power pc version kono parents: 87 diff changeset	356 {
917947ffeb7c power pc version kono parents: 87 diff changeset	357 int i;
917947ffeb7c power pc version kono parents: 87 diff changeset	358 for(i=0;i<MAX_REGISTER;i++) {
917947ffeb7c power pc version kono parents: 87 diff changeset	359 if (! regs[i]) {
917947ffeb7c power pc version kono parents: 87 diff changeset	360 return 0;
917947ffeb7c power pc version kono parents: 87 diff changeset	361 }
917947ffeb7c power pc version kono parents: 87 diff changeset	362 }
917947ffeb7c power pc version kono parents: 87 diff changeset	363 return 1;
917947ffeb7c power pc version kono parents: 87 diff changeset	364 }
917947ffeb7c power pc version kono parents: 87 diff changeset	365
917947ffeb7c power pc version kono parents: 87 diff changeset	366 int
137 9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	367 free_register_count(int d)
89 917947ffeb7c power pc version kono parents: 87 diff changeset	368 {
917947ffeb7c power pc version kono parents: 87 diff changeset	369 int i,count;
917947ffeb7c power pc version kono parents: 87 diff changeset	370 count = 0;
917947ffeb7c power pc version kono parents: 87 diff changeset	371 for(i=0;i<MAX_REGISTER;i++) {
917947ffeb7c power pc version kono parents: 87 diff changeset	372 if (! regs[i] && ! regv[i]) count++;
917947ffeb7c power pc version kono parents: 87 diff changeset	373 }
137 9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	374 return d?0:count;
89 917947ffeb7c power pc version kono parents: 87 diff changeset	375 }
917947ffeb7c power pc version kono parents: 87 diff changeset	376
917947ffeb7c power pc version kono parents: 87 diff changeset	377 void
917947ffeb7c power pc version kono parents: 87 diff changeset	378 free_all_register(void)
917947ffeb7c power pc version kono parents: 87 diff changeset	379 {
917947ffeb7c power pc version kono parents: 87 diff changeset	380 int i;
243 c311c26e006a * empty log message * kono parents: 242 diff changeset	381 for(i=0;i<MAX_REGISTER+REAL_MAX_LREGISTER;i++) {
89 917947ffeb7c power pc version kono parents: 87 diff changeset	382 regs[i]=regv[i]=0;
917947ffeb7c power pc version kono parents: 87 diff changeset	383 }
917947ffeb7c power pc version kono parents: 87 diff changeset	384 creg = get_register();
917947ffeb7c power pc version kono parents: 87 diff changeset	385 dreg = get_register();
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	386 reg_var = 0;
89 917947ffeb7c power pc version kono parents: 87 diff changeset	387 return;
917947ffeb7c power pc version kono parents: 87 diff changeset	388 }
917947ffeb7c power pc version kono parents: 87 diff changeset	389
917947ffeb7c power pc version kono parents: 87 diff changeset	390
917947ffeb7c power pc version kono parents: 87 diff changeset	391 void
917947ffeb7c power pc version kono parents: 87 diff changeset	392 register_usage(char *s)
917947ffeb7c power pc version kono parents: 87 diff changeset	393 {
917947ffeb7c power pc version kono parents: 87 diff changeset	394 int i;
917947ffeb7c power pc version kono parents: 87 diff changeset	395 if (chk) return;
917947ffeb7c power pc version kono parents: 87 diff changeset	396 printf("# %d: %s:",lineno,s);
917947ffeb7c power pc version kono parents: 87 diff changeset	397 printf(" creg=%s dreg=%s ",register_name(creg,0),register_name(dreg,0));
917947ffeb7c power pc version kono parents: 87 diff changeset	398 for(i=0;i<MAX_REGISTER;i++) {
917947ffeb7c power pc version kono parents: 87 diff changeset	399 printf("%d",regs[i]);
917947ffeb7c power pc version kono parents: 87 diff changeset	400 }
917947ffeb7c power pc version kono parents: 87 diff changeset	401 printf(":");
917947ffeb7c power pc version kono parents: 87 diff changeset	402 for(i=0;i<MAX_REGISTER;i++) {
917947ffeb7c power pc version kono parents: 87 diff changeset	403 printf("%d",regv[i]);
917947ffeb7c power pc version kono parents: 87 diff changeset	404 }
917947ffeb7c power pc version kono parents: 87 diff changeset	405 #if 0
917947ffeb7c power pc version kono parents: 87 diff changeset	406 printf(" regs_stack",register_name(creg,0),register_name(dreg,0));
917947ffeb7c power pc version kono parents: 87 diff changeset	407 for(i=reg_sp;i>=0;i--) {
917947ffeb7c power pc version kono parents: 87 diff changeset	408 if(reg_stack[i]>=0)
917947ffeb7c power pc version kono parents: 87 diff changeset	409 printf(" %s",register_name(reg_stack[i],0));
917947ffeb7c power pc version kono parents: 87 diff changeset	410 }
917947ffeb7c power pc version kono parents: 87 diff changeset	411 #endif
94 1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	412 printf(" f:%d",freg_sp);
89 917947ffeb7c power pc version kono parents: 87 diff changeset	413 printf("\n");
917947ffeb7c power pc version kono parents: 87 diff changeset	414 }
917947ffeb7c power pc version kono parents: 87 diff changeset	415
109 e09f9de6f5d3 * empty log message * kono parents: 108 diff changeset	416 void
137 9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	417 code_arg_register(NMTBL *fnptr)
109 e09f9de6f5d3 * empty log message * kono parents: 108 diff changeset	418 {
137 9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	419 int args = fnptr->dsp;
9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	420 NMTBL *n;
9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	421 int reg_var = 0;
9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	422 int freg_var = 0;
9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	423 int type;
9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	424 int reg;
9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	425 int is_code0 = is_code(fnptr);
9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	426
9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	427 while (args) {
9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	428 /* process in reverse order */
9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	429 n = (NMTBL*)caddr(args);
9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	430 type = n->ty;
9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	431 if (scalar(type)) {
9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	432 if ((reg = get_input_register_var(reg_var,n,is_code0))) {
9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	433 n->sc = REGISTER;
9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	434 n->dsp = cadr(reg);
9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	435 regv[n->dsp]= 1;
9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	436 regs[n->dsp]= INPUT_REG;
9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	437 reg_var++;
9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	438 cadddr(args)=size_of_int; /* why we need this? */
9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	439 }
9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	440 } else if (type==FLOAT\|\|type==DOUBLE) {
138 e6e77af048a1 float/dobule configuration kono parents: 137 diff changeset	441 if ((reg = get_input_dregister_var(freg_var,n,is_code0,1))) {
137 9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	442 n->sc = DREGISTER;
9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	443 n->dsp = cadr(reg);
9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	444 fregv[n->dsp]= 1;
9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	445 fregs[n->dsp]= INPUT_REG;
9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	446 freg_var++;
9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	447 cadddr(args)=size(type); /* why we need this? */
9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	448 }
9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	449 }
9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	450 args = cadr(args);
9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	451 }
109 e09f9de6f5d3 * empty log message * kono parents: 108 diff changeset	452 }
e09f9de6f5d3 * empty log message * kono parents: 108 diff changeset	453
89 917947ffeb7c power pc version kono parents: 87 diff changeset	454 void
917947ffeb7c power pc version kono parents: 87 diff changeset	455 gexpr_init(void)
917947ffeb7c power pc version kono parents: 87 diff changeset	456 {
917947ffeb7c power pc version kono parents: 87 diff changeset	457 while(reg_sp > 0) {
94 1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	458 if (reg_stack[--reg_sp]>=0)
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	459 free_register(reg_stack[reg_sp]);
89 917947ffeb7c power pc version kono parents: 87 diff changeset	460 }
94 1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	461 freg_sp = 0;
89 917947ffeb7c power pc version kono parents: 87 diff changeset	462 text_mode();
917947ffeb7c power pc version kono parents: 87 diff changeset	463 gexpr_code_init();
917947ffeb7c power pc version kono parents: 87 diff changeset	464 register_usage("gexpr_init");
917947ffeb7c power pc version kono parents: 87 diff changeset	465 }
917947ffeb7c power pc version kono parents: 87 diff changeset	466
917947ffeb7c power pc version kono parents: 87 diff changeset	467
917947ffeb7c power pc version kono parents: 87 diff changeset	468 void
917947ffeb7c power pc version kono parents: 87 diff changeset	469 emit_init(void)
917947ffeb7c power pc version kono parents: 87 diff changeset	470 {
917947ffeb7c power pc version kono parents: 87 diff changeset	471 int i;
917947ffeb7c power pc version kono parents: 87 diff changeset	472 for(i=0;i<MAX_REGISTER;i++) { regs[i]=0; regv[i]=0;rname[i]=i;}
917947ffeb7c power pc version kono parents: 87 diff changeset	473 free_all_register();
917947ffeb7c power pc version kono parents: 87 diff changeset	474 reg_sp = 0;
94 1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	475 freg_sp = 0;
89 917947ffeb7c power pc version kono parents: 87 diff changeset	476 text_mode();
917947ffeb7c power pc version kono parents: 87 diff changeset	477 }
917947ffeb7c power pc version kono parents: 87 diff changeset	478
917947ffeb7c power pc version kono parents: 87 diff changeset	479 int
917947ffeb7c power pc version kono parents: 87 diff changeset	480 virtual(int real)
917947ffeb7c power pc version kono parents: 87 diff changeset	481 {
917947ffeb7c power pc version kono parents: 87 diff changeset	482 int real_v,i;
917947ffeb7c power pc version kono parents: 87 diff changeset	483 real_v = -1;
917947ffeb7c power pc version kono parents: 87 diff changeset	484 for(i=0;i<MAX_REGISTER;i++) {
917947ffeb7c power pc version kono parents: 87 diff changeset	485 if (rname[i]==real) {
917947ffeb7c power pc version kono parents: 87 diff changeset	486 real_v=i;
917947ffeb7c power pc version kono parents: 87 diff changeset	487 break;
917947ffeb7c power pc version kono parents: 87 diff changeset	488 }
917947ffeb7c power pc version kono parents: 87 diff changeset	489 }
917947ffeb7c power pc version kono parents: 87 diff changeset	490 return real_v;
917947ffeb7c power pc version kono parents: 87 diff changeset	491 }
917947ffeb7c power pc version kono parents: 87 diff changeset	492
917947ffeb7c power pc version kono parents: 87 diff changeset	493 int
917947ffeb7c power pc version kono parents: 87 diff changeset	494 pop_register(void)
917947ffeb7c power pc version kono parents: 87 diff changeset	495 { /* �쥸��ͤ��Ф� */
917947ffeb7c power pc version kono parents: 87 diff changeset	496 return reg_stack[--reg_sp];
917947ffeb7c power pc version kono parents: 87 diff changeset	497 }
917947ffeb7c power pc version kono parents: 87 diff changeset	498
917947ffeb7c power pc version kono parents: 87 diff changeset	499 void
917947ffeb7c power pc version kono parents: 87 diff changeset	500 emit_pop_free(int xreg)
917947ffeb7c power pc version kono parents: 87 diff changeset	501 {
159 b80e9737c3ce regs[creg]==0 in ia32 kono parents: 156 diff changeset	502 if (xreg==dreg\|\|xreg==creg) {
89 917947ffeb7c power pc version kono parents: 87 diff changeset	503 regv[dreg]=0;
98 07c2554e1cfa * empty log message * kono parents: 97 diff changeset	504 } else if (xreg>=0) {
89 917947ffeb7c power pc version kono parents: 87 diff changeset	505 free_register(xreg);
917947ffeb7c power pc version kono parents: 87 diff changeset	506 }
917947ffeb7c power pc version kono parents: 87 diff changeset	507 }
917947ffeb7c power pc version kono parents: 87 diff changeset	508
917947ffeb7c power pc version kono parents: 87 diff changeset	509
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	510 int
105 7e3d59e56a53 save register ( incomplete ) kono parents: 104 diff changeset	511 get_register_var(NMTBL *nptr)
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	512 {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	513 int i;
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	514 for(i=REG_ESI;i<REG_EBP;i++) {
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	515 if (! regs[i]) { /* �Ȥ��Ƥ��ʤ��ʤ� */
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	516 regs[i]=REG_VAR; /* ��Υ쥸��Ȥ��Ȥ�� */
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	517 regv[i]=0;
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	518 regvar[reg_var++]=i;
105 7e3d59e56a53 save register ( incomplete ) kono parents: 104 diff changeset	519 return list3(REGISTER,i,(int)nptr); /* ��ξ��ɽ��ֹ��֤� */
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	520 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	521 }
104 c21aeb12b78b * empty log message * kono parents: 103 diff changeset	522 return list2(LVAR,new_lvar(size_of_int));
c21aeb12b78b * empty log message * kono parents: 103 diff changeset	523 }
c21aeb12b78b * empty log message * kono parents: 103 diff changeset	524
c21aeb12b78b * empty log message * kono parents: 103 diff changeset	525 int
138 e6e77af048a1 float/dobule configuration kono parents: 137 diff changeset	526 get_dregister_var(NMTBL *nptr,int d)
104 c21aeb12b78b * empty log message * kono parents: 103 diff changeset	527 {
138 e6e77af048a1 float/dobule configuration kono parents: 137 diff changeset	528 return list2(LVAR,new_lvar(d?size_of_double:size_of_float));
137 9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	529 }
9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	530
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	531 void
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	532 use_register(int virt, int real, int move)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	533 {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	534 int real_v;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	535 char *move_op;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	536 if (rname[virt]==real)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	537 return;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	538 real_v = virtual(real);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	539 move_op = regs[real_v]?"\txchg %s,%s\n":"\tmovl %s,%s\n";
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	540 if (move \|\| (regv[real_v])) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	541 printf(move_op,reg_name[rname[virt]],reg_name[real]);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	542 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	543 rname[real_v] = rname[virt];
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	544 rname[virt] = real;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	545 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	546
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	547 void
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	548 use_pointer(int virt, int move)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	549 {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	550 int i;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	551 if (rname[virt]>=POINTER_REG)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	552 return;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	553 for(i=POINTER_REG;i<MAX_REGISTER;i++) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	554 if (!regs[virtual(i)]) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	555 use_register(virt,i,move);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	556 return;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	557 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	558 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	559 /* we prefer EBX */
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	560 use_register(virt,REG_EBX,move);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	561 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	562
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	563 void
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	564 use_data_reg(int virt, int move)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	565 {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	566 int i;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	567 if (rname[virt]<MAX_DATA_REG)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	568 return;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	569 for(i=0;i<MAX_DATA_REG;i++) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	570 if (!regs[virtual(i)]) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	571 use_register(virt,i,move);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	572 return;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	573 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	574 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	575 /* we prefer EBX */
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	576 use_register(virt,REG_EBX,move);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	577 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	578
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	579
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	580 void
107 06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	581 emit_push()
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	582 {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	583 int new_reg;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	584 new_reg = get_register();
159 b80e9737c3ce regs[creg]==0 in ia32 kono parents: 156 diff changeset	585 if (new_reg==creg) error(-1);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	586 if(new_reg<0) { /* �⤦�쥸��ʤ� */
83 f3f75911d62c * empty log message * kono parents: 82 diff changeset	587 if (reg_sp>=MAX_MAX) error(-1);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	588 reg_stack[reg_sp++] = -1;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	589 printf("\tpushl %s\n",register_name(creg,0));
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	590 /* creg is used soon, don't regv[creg]=0 */
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	591 } else {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	592 reg_stack[reg_sp++] = creg; /* push ��뤫��˥쥸��Ȥ� */
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	593 creg = new_reg;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	594 regv[creg]=1;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	595 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	596 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	597
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	598 int
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	599 emit_pop(int type)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	600 {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	601 int xreg;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	602 if ((xreg=pop_register())==-1) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	603 if (type==POINTER_REG)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	604 use_pointer(dreg,0);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	605 else if (type==DATA_REG)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	606 use_data_reg(dreg,0);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	607 if (regv[dreg]) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	608 printf("# emit_pop dreg conflict\n");
94 1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	609 error(-1);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	610 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	611 printf("\tpopl %s\n",register_name(dreg,0));
94 1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	612 regv[dreg]=1;
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	613 return dreg;
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	614 } else if (xreg<= -REG_LVAR_OFFSET) {
119 b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	615 code_rlvar(xreg+REG_LVAR_OFFSET,dreg);
117 2d5a203cc3a6 lvar reuse kono parents: 116 diff changeset	616 free_lvar(xreg+REG_LVAR_OFFSET);
94 1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	617 regv[dreg]=1;
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	618 return dreg;
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	619 }
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	620 return xreg;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	621 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	622
186 6391432ca002 nkf binary fix kono parents: 183 diff changeset	623 int
6391432ca002 nkf binary fix kono parents: 183 diff changeset	624 stack_top(int type)
6391432ca002 nkf binary fix kono parents: 183 diff changeset	625 {
6391432ca002 nkf binary fix kono parents: 183 diff changeset	626 int xreg;
6391432ca002 nkf binary fix kono parents: 183 diff changeset	627 if (type==INT) {
6391432ca002 nkf binary fix kono parents: 183 diff changeset	628 xreg = reg_stack[reg_sp];
6391432ca002 nkf binary fix kono parents: 183 diff changeset	629 if (xreg<= -REG_LVAR_OFFSET) {
6391432ca002 nkf binary fix kono parents: 183 diff changeset	630 return list2(LVAR,REG_LVAR_OFFSET+xreg);
6391432ca002 nkf binary fix kono parents: 183 diff changeset	631 } else {
6391432ca002 nkf binary fix kono parents: 183 diff changeset	632 return list2(REGISTER,xreg);
6391432ca002 nkf binary fix kono parents: 183 diff changeset	633 }
6391432ca002 nkf binary fix kono parents: 183 diff changeset	634 } else {
6391432ca002 nkf binary fix kono parents: 183 diff changeset	635 xreg = freg_stack[freg_sp];
6391432ca002 nkf binary fix kono parents: 183 diff changeset	636 if (xreg<= -REG_LVAR_OFFSET) {
6391432ca002 nkf binary fix kono parents: 183 diff changeset	637 return list2(LVAR,REG_LVAR_OFFSET+xreg);
187 dffcccf8b1cb nested COND kono parents: 186 diff changeset	638 } else {
186 6391432ca002 nkf binary fix kono parents: 183 diff changeset	639 return list2(DREGISTER,xreg);
6391432ca002 nkf binary fix kono parents: 183 diff changeset	640 }
6391432ca002 nkf binary fix kono parents: 183 diff changeset	641 }
6391432ca002 nkf binary fix kono parents: 183 diff changeset	642 return xreg;
6391432ca002 nkf binary fix kono parents: 183 diff changeset	643 }
6391432ca002 nkf binary fix kono parents: 183 diff changeset	644
6391432ca002 nkf binary fix kono parents: 183 diff changeset	645
6391432ca002 nkf binary fix kono parents: 183 diff changeset	646
92 e7f8515ba882 * empty log message * kono parents: 89 diff changeset	647 void
e7f8515ba882 * empty log message * kono parents: 89 diff changeset	648 code_label(int labelno)
e7f8515ba882 * empty log message * kono parents: 89 diff changeset	649 {
e7f8515ba882 * empty log message * kono parents: 89 diff changeset	650 printf("_%d:\n",labelno);
e7f8515ba882 * empty log message * kono parents: 89 diff changeset	651 }
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	652
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	653 void
107 06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	654 code_gvar(int e1,int creg) {
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	655 use_int(creg);
109 e09f9de6f5d3 * empty log message * kono parents: 108 diff changeset	656 printf("\tmovl $%s,%s\n",((NMTBL*)cadr(e1))->nm,register_name(creg,0));
107 06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	657 regv[creg]=1;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	658 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	659
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	660
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	661 void
107 06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	662 code_rgvar(int e1,int creg) {
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	663 use_int(creg);
109 e09f9de6f5d3 * empty log message * kono parents: 108 diff changeset	664 printf("\tmovl %s,%s\n",((NMTBL*)cadr(e1))->nm,register_name(creg,0));
107 06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	665 regv[creg]=1;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	666 }
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	667
166 9e55cc5551fb * empty log message * kono parents: 165 diff changeset	668 static char *cload(int sign,int sz) { return sz==1?(sign?"movsbl":"movzbl"):sz==size_of_short?(sign?"movswl":"movzwl"):"movl"; }
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	669
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	670 void
165 6409ff6bc219 short kono parents: 163 diff changeset	671 code_crgvar(int e1,int creg,int sign,int sz){
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	672 use_int(creg);
165 6409ff6bc219 short kono parents: 163 diff changeset	673 printf("\t%s %s,%s\n",cload(sign,sz),
163 fc8514c9d685 * empty log message * kono parents: 159 diff changeset	674 ((NMTBL*)cadr(e1))->nm,register_name(creg,0));
107 06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	675 regv[creg]=1;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	676 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	677
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	678
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	679 void
107 06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	680 code_lvar(int e2,int creg) {
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	681 use_int(creg);
119 b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	682 printf("\tlea %d(%%ebp),%s\n",lvar(e2),register_name(creg,0));
107 06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	683 regv[creg]=1;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	684 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	685
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	686
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	687 void
107 06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	688 code_register(int e2,int creg) {
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	689 use_int(creg);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	690 printf("\tmovl %s,%s\n",register_name(e2,0),register_name(creg,0));
107 06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	691 regv[creg]=1;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	692 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	693
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	694
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	695 void
94 1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	696 code_rlvar(int e2,int reg) {
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	697 use_int(reg);
119 b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	698 printf("\tmovl %d(%%ebp),%s\n",lvar(e2),register_name(reg,0));
107 06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	699 regv[creg]=1;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	700 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	701
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	702
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	703 void
165 6409ff6bc219 short kono parents: 163 diff changeset	704 code_crlvar(int e2,int reg,int sign,int sz) {
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	705 use_int(reg);
165 6409ff6bc219 short kono parents: 163 diff changeset	706 printf("\t%s %d(%%ebp),%s\n",cload(sign,sz),lvar(e2),register_name(reg,0));
107 06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	707 regv[creg]=1;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	708 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	709
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	710
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	711 void
109 e09f9de6f5d3 * empty log message * kono parents: 108 diff changeset	712 code_fname(NMTBL *n,int creg) {
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	713 use_int(creg);
109 e09f9de6f5d3 * empty log message * kono parents: 108 diff changeset	714 printf("\tmovl $%s,%s\n",n->nm,register_name(creg,0));
107 06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	715 regv[creg]=1;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	716 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	717
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	718
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	719 void
107 06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	720 code_const(int e2,int creg) {
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	721 use_int(creg);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	722 printf("\tmovl $%d,%s\n",e2,register_name(creg,0));
107 06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	723 regv[creg]=1;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	724 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	725
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	726
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	727 void
107 06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	728 code_neg(int creg) {
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	729 use_int(creg);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	730 printf("\tnegl %s\n", register_name(creg,0));
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	731 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	732
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	733
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	734 void
107 06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	735 code_not(int creg) {
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	736 use_int(creg);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	737 printf("\tnotl %s\n", register_name(creg,0));
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	738 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	739
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	740
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	741 void
107 06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	742 code_lnot(int creg) {
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	743 char *xrn;
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	744 use_int(creg);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	745 use_data_reg(creg,1);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	746 xrn = register_name(creg,1);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	747 printf("\tcmpl $0,%s\n", register_name(creg,0));
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	748 printf("\tsete %s\n", xrn);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	749 printf("\tmovzbl %s,%s\n", xrn,register_name(creg,0));
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	750 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	751
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	752 void
168 b1297c82e926 cpostinc removal kono parents: 167 diff changeset	753 code_preinc(int e1,int e2,int dir,int sign,int sz,int reg) {
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	754 char *xrn;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	755 if (car(e2)==REGISTER) {
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	756 use_int(reg);
168 b1297c82e926 cpostinc removal kono parents: 167 diff changeset	757 printf("\taddl $%d,%s\n",dir,register_name(cadr(e2),0));
107 06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	758 printf("\tmovl %s,%s\n",register_name(cadr(e2),0),register_name(reg,0));
06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	759 regv[reg]=1;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	760 return;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	761 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	762 g_expr(e2);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	763 xrn = register_name(creg,0);
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	764 use_int(reg);
168 b1297c82e926 cpostinc removal kono parents: 167 diff changeset	765 printf("\t%s $%d,(%s)\n",(sz==1)?"addb":(sz==size_of_short)?"addw":"addl",dir,xrn);
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	766 printf("\t%s (%s),%s\n",cload(sign,sz),xrn,register_name(reg,0));
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	767 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	768
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	769
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	770 void
168 b1297c82e926 cpostinc removal kono parents: 167 diff changeset	771 code_postinc(int e1,int e2,int dir,int sign,int sz,int reg) {
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	772 char *xrn;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	773 if (car(e2)==REGISTER) {
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	774 use_int(reg);
107 06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	775 printf("\tmovl %s,%s\n",register_name(cadr(e2),0),register_name(reg,0));
168 b1297c82e926 cpostinc removal kono parents: 167 diff changeset	776 printf("\taddl $%d,%s\n",dir,register_name(cadr(e2),0));
107 06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	777 regv[reg]=1;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	778 return;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	779 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	780 g_expr(e2);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	781 emit_push();
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	782 xrn = register_name((e2=emit_pop(0)),0);
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	783 use_int(reg);
c575422d8b6e * empty log message * kono parents: 230 diff changeset	784 printf("\t%s (%s),%s\n",cload(sign,sz),xrn,register_name(reg,0));
168 b1297c82e926 cpostinc removal kono parents: 167 diff changeset	785 printf("\t%s $%d,(%s)\n",(sz==1)?"addb":(sz==size_of_short)?"addw":"addl",dir,xrn);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	786 emit_pop_free(e2);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	787 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	788
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	789
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	790
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	791 void
107 06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	792 code_return(int creg) {
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	793 use_int(creg);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	794 printf("\tleal _%d,%s\n",retcont,register_name(creg,0));
107 06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	795 regv[creg]=1;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	796 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	797
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	798
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	799 void
107 06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	800 code_environment(int creg) {
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	801 use_int(creg);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	802 printf("\tmovl %%ebp,%s\n",register_name(creg,0));
107 06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	803 regv[creg]=1;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	804 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	805
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	806
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	807 void
225 8675ea3d2c7f * empty log message * kono parents: 224 diff changeset	808 code_bool(int e1,int reg) {
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	809 char *xrn;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	810 int e2,e3;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	811 b_expr(e1,1,e2=fwdlabel(),1); /* including > < ... */
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	812 use_int(reg);
c575422d8b6e * empty log message * kono parents: 230 diff changeset	813 xrn = register_name(reg,0);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	814 printf("\txorl %s,%s\n",xrn,xrn);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	815 jmp(e3=fwdlabel());
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	816 fwddef(e2);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	817 printf("\tmovl $1,%s\n",xrn);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	818 fwddef(e3);
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	819 regv[reg]=1;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	820 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	821
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	822 char *
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	823 code_gt(int cond) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	824 return (cond?"g":"le");
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	825 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	826
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	827 char *
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	828 code_ugt(int cond) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	829 return (cond?"a":"be");
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	830 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	831
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	832 char *
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	833 code_ge(int cond) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	834 return (cond?"ge":"l");
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	835 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	836
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	837 char *
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	838 code_uge(int cond) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	839 return (cond?"ae":"b");
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	840 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	841
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	842 char *
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	843 code_eq(int cond) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	844 return (cond?"e":"ne");
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	845 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	846
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	847 void
225 8675ea3d2c7f * empty log message * kono parents: 224 diff changeset	848 code_cmp_crgvar(int e1,int reg,int sz) {
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	849 use_int(reg);
167 0197ca125567 mips short kono parents: 166 diff changeset	850 if (sz==1)
0197ca125567 mips short kono parents: 166 diff changeset	851 printf("\tcmpb $0,%s\n",((NMTBL*)cadr(e1))->nm);
0197ca125567 mips short kono parents: 166 diff changeset	852 else if (sz==size_of_short)
0197ca125567 mips short kono parents: 166 diff changeset	853 printf("\tcmpw $0,%s\n",((NMTBL*)cadr(e1))->nm);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	854 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	855
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	856
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	857 void
225 8675ea3d2c7f * empty log message * kono parents: 224 diff changeset	858 code_cmp_crlvar(int e1,int reg,int sz) {
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	859 use_int(reg);
167 0197ca125567 mips short kono parents: 166 diff changeset	860 if (sz==1)
0197ca125567 mips short kono parents: 166 diff changeset	861 printf("\tcmpb $0,%d(%%ebp)\n",lvar(e1));
0197ca125567 mips short kono parents: 166 diff changeset	862 else if (sz==size_of_short)
0197ca125567 mips short kono parents: 166 diff changeset	863 printf("\tcmpw $0,%d(%%ebp)\n",lvar(e1));
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	864 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	865
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	866
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	867 void
225 8675ea3d2c7f * empty log message * kono parents: 224 diff changeset	868 code_cmp_rgvar(int e1,int reg) {
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	869 use_int(reg);
109 e09f9de6f5d3 * empty log message * kono parents: 108 diff changeset	870 printf("\tcmpl $0,%s\n",((NMTBL*)cadr(e1))->nm);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	871 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	872
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	873
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	874 void
225 8675ea3d2c7f * empty log message * kono parents: 224 diff changeset	875 code_cmp_rlvar(int e1,int reg) {
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	876 use_int(reg);
119 b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	877 printf("\tcmpl $0,%d(%%ebp)\n",lvar(e1));
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	878 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	879
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	880
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	881 void
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	882 code_cmp_register(int e2) {
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	883 use_int(e2);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	884 printf("\tcmpl $0,%s\n",register_name(e2,0));
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	885 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	886
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	887
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	888 void
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	889 ascii(char *s)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	890 {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	891 printf("\t.string \"");
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	892 while(*s) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	893 if (*s=='\n')
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	894 printf("%cn",92);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	895 else if (*s<' ')
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	896 printf("%c%03o",92,*s);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	897 else if (*s==34)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	898 printf("%c%c",92,34);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	899 else
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	900 printf("%c",*s);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	901 s++;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	902 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	903 printf("%c\n",34);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	904 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	905
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	906 void
107 06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	907 code_string(int e1,int creg)
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	908 {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	909 char *s;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	910 int i,lb;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	911
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	912 use_int(creg);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	913 if (0) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	914 s=(char *)cadr(e1);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	915 lb=fwdlabel();
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	916 printf("\tjmp _%d\n",lb);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	917 i=backdef();
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	918 ascii(s);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	919 printf("\t.align 2\n");
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	920 fwddef(lb);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	921 printf("\tlea _%d,%s\n",i,register_name(creg,0));
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	922 } else {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	923 s=(char *)cadr(e1);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	924 printf(".section\t.rodata\n");
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	925 lb=fwdlabel();
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	926 printf("_%d:\n",lb);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	927 ascii(s);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	928 if (output_mode==TEXT_EMIT_MODE) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	929 printf(".text\n");
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	930 } else {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	931 text_mode();
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	932 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	933 printf("\tlea _%d,%s\n",lb,register_name(creg,0));
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	934 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	935 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	936
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	937 #define MAX_COPY_LEN 20
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	938
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	939 void
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	940 emit_copy(int from,int to,int length,int offset,int value,int det)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	941 {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	942 int fix = 0;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	943 /* length <0 means upward direction copy */
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	944 use_int(from);
c575422d8b6e * empty log message * kono parents: 230 diff changeset	945 use_int(to);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	946 switch (length) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	947 case 0: break;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	948 case 1: case -1:
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	949 printf("\tmovb %d(%s),%s\n",offset,
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	950 register_name(from,0), reg_name_l[rname[dreg]] );
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	951 printf("\tmovb %s,%d(%s)\n",reg_name_l[rname[dreg]] ,offset,
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	952 register_name(to,0));
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	953 break;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	954 case 2: case -2:
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	955 printf("\tmovw %d(%s),%s\n",offset,
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	956 register_name(from,0), reg_name_w[rname[dreg]] );
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	957 printf("\tmovw %s,%d(%s)\n",reg_name_w[rname[dreg]] ,offset,
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	958 register_name(to,0));
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	959 break;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	960 case 4: case -4:
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	961 printf("\tmovl %d(%s),%s\n",offset,
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	962 register_name(from,0), register_name(dreg,0));
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	963 printf("\tmovl %s,%d(%s)\n",register_name(dreg,0), offset,
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	964 register_name(to,0));
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	965 break;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	966 default:
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	967 if (-MAX_COPY_LEN<length && length <0) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	968 for(;length<=4;length+=4,offset-=4)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	969 emit_copy(from,to,4,offset,0,det);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	970 for(;length<=2;length+=2,offset-=2)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	971 emit_copy(from,to,2,offset,0,det);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	972 if(length>0)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	973 emit_copy(from,to,length,offset,0,det);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	974 break;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	975 } else if (length <=MAX_COPY_LEN) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	976 for(;length>=4;length-=4,offset+=4)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	977 emit_copy(from,to,4,offset,0,det);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	978 for(;length>=2;length-=2,offset+=2)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	979 emit_copy(from,to,2,offset,0,det);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	980 if(length>0)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	981 emit_copy(from,to,length,offset,0,det);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	982 break;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	983 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	984 if (det) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	985 /*
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	986 call bcopy
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	987 g_expr(list3(FUNCTION,,);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	988 break;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	989 */
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	990 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	991 use_register(from,REG_ESI,1);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	992 use_register(to, REG_EDI,1);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	993 use_register(dreg,REG_ECX,0);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	994 if (length<0) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	995 printf("\tmovl $%d,%%ecx\n",-length/4);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	996 printf("\taddl $%d,%%esi\n",-length);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	997 printf("\taddl $%d,%%edi\n",-length);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	998 printf("\tstd\n\trep\n\tmovsl\n");
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	999 if(length%4) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1000 emit_copy(from,to,length,offset+length/4,0,det);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1001 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1002 } else {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1003 printf("\tmovl $%d,%%ecx\n",length/4);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1004 fix = (length/4)*4;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1005 printf("\tcld\n\trep\n\tmovsl\n");
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1006 if(length%4) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1007 emit_copy(from,to,length,offset+length/4,0,det);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1008 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1009 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1010 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1011 if (value) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1012 /* creg must point top of the destination data */
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1013 /* this code is necessary for the value of assignment or function call */
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1014 /* otherwise we don't need this */
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1015 if (fix) printf("\tsubl $%d,%s\n",fix,register_name(to,0));
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1016 if(creg!=to) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1017 if (to==dreg)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1018 printf("\tmovl %s,%s\n",register_name(to,0),register_name(creg,0));
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1019 else {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1020 free_register(creg); creg=to;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1021 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1022 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1023 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1024 regv[from]=regv[to]=regv[dreg]=0;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1025 regv[creg]=1;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1026 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1027
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1028 int
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1029 struct_push(int e4,int t)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1030 {
81 f94ca1168520 float first try... kono parents: 78 diff changeset	1031 int length,xreg,save,lreg,count;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1032 g_expr(e4);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1033 length=size(t);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1034 if(length%size_of_int) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1035 length += size_of_int - (length%size_of_int);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1036 }
81 f94ca1168520 float first try... kono parents: 78 diff changeset	1037 for(count=0;length<MAX_COPY_LEN;count++,length-=size_of_int) {
f94ca1168520 float first try... kono parents: 78 diff changeset	1038 if (length==0) return count;
f94ca1168520 float first try... kono parents: 78 diff changeset	1039 else {
f94ca1168520 float first try... kono parents: 78 diff changeset	1040 printf("\tpushl %d(%s)\n",
f94ca1168520 float first try... kono parents: 78 diff changeset	1041 length-size_of_int,register_name(creg,0));
f94ca1168520 float first try... kono parents: 78 diff changeset	1042 }
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1043 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1044 printf("\tsubl $%d,%%esp\n",length);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1045 if (register_full()) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1046 save = 1;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1047 for(lreg=0;lreg==creg\|\|lreg==dreg;lreg++);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1048 printf("\tpushl %s\n",register_name(lreg,0));
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1049 xreg = lreg; regv[xreg]=0;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1050 } else {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1051 save=0;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1052 xreg = get_register();
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1053 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1054 if (save)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1055 printf("\tlea %d(%%esp),%s\n",size_of_int,register_name(xreg,0));
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1056 else
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1057 printf("\tmovl %%esp,%s\n",register_name(xreg,0));
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1058 regv[xreg]=1;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1059 /* downward direction copy */
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1060 emit_copy(creg,xreg,length,0,0,1);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1061 /* we have value in creg, it may be changed */
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1062 if (save) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1063 if(creg==xreg) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1064 creg = get_register(); /* creg is freed in emit_copy */
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1065 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1066 printf("\tpopl %s\n",register_name(xreg,0));
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1067 regv[xreg]=1;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1068 } else
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1069 free_register(xreg);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1070 return length/size_of_int;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1071 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1072
94 1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	1073 int
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1074 function(int e1)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1075 {
127 eb4d8975926c Intel float fix kono parents: 126 diff changeset	1076 int e2,e3,e4,nargs,t,ret_type;
eb4d8975926c Intel float fix kono parents: 126 diff changeset	1077 NMTBL *n=0;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1078 int save,saved;
136 069960078249 remove redundant funcall argument for prototyped code in PowerPC case. kono parents: 133 diff changeset	1079 ret_type = cadr(cadddr(e1));
069960078249 remove redundant funcall argument for prototyped code in PowerPC case. kono parents: 133 diff changeset	1080 if (ret_type==CHAR) ret_type=INT;
069960078249 remove redundant funcall argument for prototyped code in PowerPC case. kono parents: 133 diff changeset	1081
94 1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	1082 #ifdef SAVE_STACKS
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	1083 code_save_stacks();
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	1084 #if FLOAT_CODE
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	1085 code_save_fstacks();
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	1086 #endif
94 1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	1087 #endif
137 9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	1088 if (free_register_count(0)<1) {
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1089 for(save = 0;save==dreg\|\|save==creg;save++);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1090 printf("\tpushl %s\n",register_name(save,0));
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1091 saved = 1;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1092 } else {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1093 save = get_register();
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1094 saved = 0;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1095 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1096 regv[save]=0;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1097 e2 = cadr(e1);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1098 nargs = 0;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1099 for (e3 = caddr(e1); e3; e3 = cadr(e3)) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1100 t=caddr(e3);
127 eb4d8975926c Intel float fix kono parents: 126 diff changeset	1101 e4 = car(e3);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1102 if(scalar(t)) {
240 b59364f5b030 * empty log message * kono parents: 239 diff changeset	1103 if (car(e4)==REGISTER) {
b59364f5b030 * empty log message * kono parents: 239 diff changeset	1104 printf("\tpushl %s\n",register_name(cadr(e4),0));
b59364f5b030 * empty log message * kono parents: 239 diff changeset	1105 } else {
b59364f5b030 * empty log message * kono parents: 239 diff changeset	1106 g_expr(e4);
b59364f5b030 * empty log message * kono parents: 239 diff changeset	1107 printf("\tpushl %s\n",register_name(creg,0));
b59364f5b030 * empty log message * kono parents: 239 diff changeset	1108 }
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	1109 } else if (t==LONGLONG\|\|t==ULONGLONG) {
240 b59364f5b030 * empty log message * kono parents: 239 diff changeset	1110 if (car(e4)==LREGISTER) {
b59364f5b030 * empty log message * kono parents: 239 diff changeset	1111 printf("\tpushl %s\n\tpushl %s\n",l_edx(cadr(e4)),l_eax(cadr(e4)));
b59364f5b030 * empty log message * kono parents: 239 diff changeset	1112 } else {
b59364f5b030 * empty log message * kono parents: 239 diff changeset	1113 g_expr(e4);
b59364f5b030 * empty log message * kono parents: 239 diff changeset	1114 printf("\tpushl %%edx\n\tpushl %%eax\n");
b59364f5b030 * empty log message * kono parents: 239 diff changeset	1115 }
241 96b5ee862a41 * empty log message * kono parents: 240 diff changeset	1116 ++nargs;
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1117 } else if (t==DOUBLE) {
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1118 g_expr(e4);
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1119 printf("\tleal\t-8(%%esp),%%esp\n\tfstpl\t(%%esp)\n");
85 3789aef7331d minor fix kono parents: 84 diff changeset	1120 nargs += size_of_double/size_of_int;
83 f3f75911d62c * empty log message * kono parents: 82 diff changeset	1121 fregv[freg]=0;
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1122 continue;
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1123 } else if (t==FLOAT) {
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1124 g_expr(e4);
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1125 printf("\tleal\t-4(%%esp),%%esp\n\tfstps\t(%%esp)\n");
85 3789aef7331d minor fix kono parents: 84 diff changeset	1126 nargs += size_of_float/size_of_int;
83 f3f75911d62c * empty log message * kono parents: 82 diff changeset	1127 fregv[freg]=0;
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1128 continue;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1129 } else if (car(t)==STRUCT\|\|car(t)==UNION) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1130 nargs += struct_push(e4,t);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1131 continue;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1132 } else {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1133 error(TYERR);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1134 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1135 ++nargs;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1136 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1137 if (car(e2) == FNAME) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1138 n=(NMTBL *)cadr(e2);
78 8418d4b7caa7 * empty log message * kono parents: 77 diff changeset	1139 regv[creg]=0;
8418d4b7caa7 * empty log message * kono parents: 77 diff changeset	1140 use_register(creg,REG_EAX,0); /* will be destroyed */
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1141 } else {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1142 g_expr(e2);
78 8418d4b7caa7 * empty log message * kono parents: 77 diff changeset	1143 regv[creg]=1;
8418d4b7caa7 * empty log message * kono parents: 77 diff changeset	1144 use_register(creg,REG_EAX,1); /* will be destroyed */
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1145 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1146
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1147 /* we don't have to save creg nor dreg */
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1148 regs[creg]=0; regs[dreg]=0;
78 8418d4b7caa7 * empty log message * kono parents: 77 diff changeset	1149 regv[dreg]= regv[save]= 0;
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1150 use_register(dreg,REG_EBX,0); /* will be destroyed */
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1151 use_register(save,REG_ECX,0); /* will be destroyed */
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1152 regs[creg]=1; regs[dreg]=1;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1153
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1154 if (car(e2) == FNAME) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1155 printf("\tcall\t%s\n",n->nm);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1156 } else {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1157 printf("\tcall\t*%s\n",register_name(creg,0));
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1158 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1159 if (nargs) printf("\taddl $%d,%%esp\n",size_of_int*nargs);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1160 if (saved) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1161 printf("\tpopl %s\n",register_name(save,0));
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1162 } else {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1163 free_register(save);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1164 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1165 regv[save]=0;
105 7e3d59e56a53 save register ( incomplete ) kono parents: 104 diff changeset	1166 if (ret_type==DOUBLE\|\|ret_type==FLOAT) {
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1167 } else if (ret_type==LONGLONG\|\|ret_type==ULONGLONG) {
243 c311c26e006a * empty log message * kono parents: 242 diff changeset	1168 use_longlong0(USE_CREG);
c311c26e006a * empty log message * kono parents: 242 diff changeset	1169 regv[creg]=1;
105 7e3d59e56a53 save register ( incomplete ) kono parents: 104 diff changeset	1170 } else if (ret_type==VOID) {
243 c311c26e006a * empty log message * kono parents: 242 diff changeset	1171 regv[freg]=0; regv[creg]=0;
94 1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	1172 } else {
243 c311c26e006a * empty log message * kono parents: 242 diff changeset	1173 use_register(creg,REG_EAX,0);
94 1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	1174 fregv[freg]=0; regv[creg]=1;
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	1175 }
105 7e3d59e56a53 save register ( incomplete ) kono parents: 104 diff changeset	1176 return ret_type;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1177 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1178
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1179 void
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1180 code_frame_pointer(int e3) {
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	1181 use_int(e3);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1182 printf("\tmovl %s,%%ebp\n",register_name(e3,0));
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1183 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1184
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1185
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1186 void
62 129f4802b027 separation done kono parents: 61 diff changeset	1187 code_fix_frame_pointer(int disp_offset) {
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1188 printf("\tlea %d(%%ebp),%%ebp\n",disp_offset);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1189 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1190
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1191
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1192 void
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1193 code_jmp(char *s) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1194 printf("\tjmp %s\n",s);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1195 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1196
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1197
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1198 void
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1199 code_indirect_jmp(int e2) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1200 printf("\tjmp *%s\n",register_name(e2,0));
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1201 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1202
94 1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	1203 int
225 8675ea3d2c7f * empty log message * kono parents: 224 diff changeset	1204 code_rindirect(int e1, int reg,int offset, int us)
196 5f70abd9453d * empty log message * kono parents: 195 diff changeset	1205 {
5f70abd9453d * empty log message * kono parents: 195 diff changeset	1206 char crn,op;
5f70abd9453d * empty log message * kono parents: 195 diff changeset	1207 int byte;
5f70abd9453d * empty log message * kono parents: 195 diff changeset	1208 g_expr(e1);
5f70abd9453d * empty log message * kono parents: 195 diff changeset	1209 byte = 0; op="movl";
5f70abd9453d * empty log message * kono parents: 195 diff changeset	1210 crn = register_name(creg,0);
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	1211 use_int(reg);
c575422d8b6e * empty log message * kono parents: 230 diff changeset	1212 printf("\t%s %d(%s),%s\n",op,offset,crn,register_name(reg,0));
196 5f70abd9453d * empty log message * kono parents: 195 diff changeset	1213 return us?UNSIGNED:INT;
5f70abd9453d * empty log message * kono parents: 195 diff changeset	1214 }
5f70abd9453d * empty log message * kono parents: 195 diff changeset	1215
5f70abd9453d * empty log message * kono parents: 195 diff changeset	1216 int
225 8675ea3d2c7f * empty log message * kono parents: 224 diff changeset	1217 code_crindirect(int e1, int reg,int offset, int us)
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1218 {
196 5f70abd9453d * empty log message * kono parents: 195 diff changeset	1219 char crn,op;
5f70abd9453d * empty log message * kono parents: 195 diff changeset	1220 int byte;
5f70abd9453d * empty log message * kono parents: 195 diff changeset	1221 g_expr(e1);
5f70abd9453d * empty log message * kono parents: 195 diff changeset	1222 byte = 0; op=us?"movzbl":"movsbl";
5f70abd9453d * empty log message * kono parents: 195 diff changeset	1223 crn = register_name(creg,0);
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	1224 use_int(reg);
c575422d8b6e * empty log message * kono parents: 230 diff changeset	1225 printf("\t%s %d(%s),%s\n",op,offset,crn,register_name(reg,0));
196 5f70abd9453d * empty log message * kono parents: 195 diff changeset	1226 return us?UCHAR:CHAR;
5f70abd9453d * empty log message * kono parents: 195 diff changeset	1227 }
5f70abd9453d * empty log message * kono parents: 195 diff changeset	1228
5f70abd9453d * empty log message * kono parents: 195 diff changeset	1229 int
225 8675ea3d2c7f * empty log message * kono parents: 224 diff changeset	1230 code_srindirect(int e1, int reg,int offset, int us)
196 5f70abd9453d * empty log message * kono parents: 195 diff changeset	1231 {
5f70abd9453d * empty log message * kono parents: 195 diff changeset	1232 char crn,op;
5f70abd9453d * empty log message * kono parents: 195 diff changeset	1233 int byte;
5f70abd9453d * empty log message * kono parents: 195 diff changeset	1234 g_expr(e1);
5f70abd9453d * empty log message * kono parents: 195 diff changeset	1235 byte = 0; op=us?"movzwl":"movswl";
5f70abd9453d * empty log message * kono parents: 195 diff changeset	1236 crn = register_name(creg,0);
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	1237 use_int(reg);
c575422d8b6e * empty log message * kono parents: 230 diff changeset	1238 printf("\t%s %d(%s),%s\n",op,offset,crn,register_name(reg,0));
196 5f70abd9453d * empty log message * kono parents: 195 diff changeset	1239 return us?USHORT:SHORT;
5f70abd9453d * empty log message * kono parents: 195 diff changeset	1240 }
5f70abd9453d * empty log message * kono parents: 195 diff changeset	1241
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	1242 #if FLOAT_CODE
196 5f70abd9453d * empty log message * kono parents: 195 diff changeset	1243 int
225 8675ea3d2c7f * empty log message * kono parents: 224 diff changeset	1244 code_drindirect(int e1, int reg,int offset, int d)
196 5f70abd9453d * empty log message * kono parents: 195 diff changeset	1245 {
5f70abd9453d * empty log message * kono parents: 195 diff changeset	1246 g_expr(e1);
5f70abd9453d * empty log message * kono parents: 195 diff changeset	1247 printf("\t%s (%s)\n",fload(d),register_name(creg,0));
5f70abd9453d * empty log message * kono parents: 195 diff changeset	1248 return DOUBLE;
5f70abd9453d * empty log message * kono parents: 195 diff changeset	1249 }
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	1250 #endif
196 5f70abd9453d * empty log message * kono parents: 195 diff changeset	1251
5f70abd9453d * empty log message * kono parents: 195 diff changeset	1252 #if LONGLONG_CODE
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	1253
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	1254 static void
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1255 lload(int creg,int offset,int reg)
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	1256 {
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	1257 char *crn = register_name(creg,0);
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1258 use_longlong(reg);
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1259 if((reg==REG_L&&rname[creg]==REG_ESI)\|\|(rname[creg]==REG_EAX)) {
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1260 printf("\tmovl %d(%s),%s\n",offset+size_of_int,crn,l_edx(reg));
240 b59364f5b030 * empty log message * kono parents: 239 diff changeset	1261 printf("\tmovl %d(%s),%s\n",offset,crn,l_eax(reg));
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	1262 } else {
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1263 printf("\tmovl %d(%s),%s\n",offset,crn,l_eax(reg));
240 b59364f5b030 * empty log message * kono parents: 239 diff changeset	1264 printf("\tmovl %d(%s),%s\n",offset+size_of_int,crn,l_edx(reg));
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	1265 }
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	1266 }
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	1267
196 5f70abd9453d * empty log message * kono parents: 195 diff changeset	1268 int
225 8675ea3d2c7f * empty log message * kono parents: 224 diff changeset	1269 code_lrindirect(int e1, int reg, int offset, int us)
196 5f70abd9453d * empty log message * kono parents: 195 diff changeset	1270 {
240 b59364f5b030 * empty log message * kono parents: 239 diff changeset	1271 int reg0;
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	1272 g_expr(e1);
240 b59364f5b030 * empty log message * kono parents: 239 diff changeset	1273 regv[reg0=creg]=1;
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	1274 use_longlong(reg);
240 b59364f5b030 * empty log message * kono parents: 239 diff changeset	1275 lload(reg0,offset,reg);
203 28baf6cd9ad1 * empty log message * kono parents: 196 diff changeset	1276 return LONGLONG;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1277 }
196 5f70abd9453d * empty log message * kono parents: 195 diff changeset	1278 #endif
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1279
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1280 char *
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1281 move(int byte)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1282 {
165 6409ff6bc219 short kono parents: 163 diff changeset	1283 return byte==1?"movb":byte==size_of_short?"movw":"movl";
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1284 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1285
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1286 void
103 f849af4b5ea9 * empty log message * kono parents: 102 diff changeset	1287 code_assign_gvar(int e2,int creg,int byte) {
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	1288 use_int(creg);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1289 if (byte) use_data_reg(creg,1);
109 e09f9de6f5d3 * empty log message * kono parents: 108 diff changeset	1290 printf("\t%s %s,%s\n",move(byte),register_name(creg,byte),((NMTBL*)cadr(e2))->nm);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1291 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1292
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1293 void
103 f849af4b5ea9 * empty log message * kono parents: 102 diff changeset	1294 code_assign_lvar(int e2,int creg,int byte) {
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	1295 use_int(creg);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1296 if (byte) use_data_reg(creg,1);
119 b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	1297 printf("\t%s %s,%d(%%ebp)\n",move(byte),register_name(creg,byte),lvar(e2));
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1298 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1299
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1300 void
111 7aa449aff3e6 floating point kono parents: 109 diff changeset	1301 code_assign_register(int e2,int byte,int creg) {
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	1302 use_int(creg);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1303 printf("\tmovl %s,%s\n",register_name(creg,0),register_name(e2,0));
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1304 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1305
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1306 void
118 07b91b625f84 assignment optimization kono parents: 117 diff changeset	1307 code_assign(int e2,int byte,int creg) {
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	1308 use_int(e2);
c575422d8b6e * empty log message * kono parents: 230 diff changeset	1309 use_int(creg);
95 185d2cc6a3a9 * empty log message * kono parents: 94 diff changeset	1310 if (byte) use_data_reg(creg,1);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1311 printf("\t%s %s,(%s)\n",move(byte),register_name(creg,byte),register_name(e2,0));
144 56211702f298 creg/freg continue kono parents: 139 diff changeset	1312 regv[creg]=1;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1313 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1314
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1315 void
225 8675ea3d2c7f * empty log message * kono parents: 224 diff changeset	1316 code_register_assop(int e2,int reg0,int op,int byte) {
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1317 int reg;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1318 int xreg = creg;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1319 creg = reg = e2;
225 8675ea3d2c7f * empty log message * kono parents: 224 diff changeset	1320 tosop(op,reg,xreg);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1321 creg = xreg;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1322 printf("\tmovl %s,%s\n",register_name(reg,0),register_name(creg,0));
159 b80e9737c3ce regs[creg]==0 in ia32 kono parents: 156 diff changeset	1323 regs[creg]=regv[creg]=1;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1324 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1325
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1326
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1327 void
225 8675ea3d2c7f * empty log message * kono parents: 224 diff changeset	1328 code_assop(int op,int reg,int byte,int sign) {
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1329 char *xrn;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1330 int xreg;
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	1331 int edx = edx_setup(-1);
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	1332 use_int(reg);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1333 xrn = register_name(xreg = emit_pop(0),0); /* pop e3 value */
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1334 regv[xreg]=regs[xreg]=1;
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	1335 printf("\tmovl %s,%s # assop \n",register_name(reg,0),register_name(edx,0));
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1336 regv[edx]=1;
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	1337 ld_indexx(byte,0,edx,reg,sign);
225 8675ea3d2c7f * empty log message * kono parents: 224 diff changeset	1338 tosop(op,reg,xreg);
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	1339 printf("\t%s %s,(%s)\n",move(byte),register_name(reg,byte),register_name(edx,0));
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1340 edx_cleanup();
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1341 emit_pop_free(xreg);
144 56211702f298 creg/freg continue kono parents: 139 diff changeset	1342 regv[creg]=1;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1343 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1344
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1345
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1346 void
225 8675ea3d2c7f * empty log message * kono parents: 224 diff changeset	1347 tosop(int op,int reg,int oreg)
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1348 {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1349 int dx;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1350 char orn,crn;
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	1351 use_int(reg);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1352
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1353 switch(op) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1354 case LSHIFT:
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1355 case ULSHIFT:
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	1356 shift("sall",oreg,reg);
144 56211702f298 creg/freg continue kono parents: 139 diff changeset	1357 regv[creg]=1;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1358 return;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1359 case RSHIFT:
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	1360 shift("sarl",oreg,reg);
144 56211702f298 creg/freg continue kono parents: 139 diff changeset	1361 regv[creg]=1;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1362 return;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1363 case URSHIFT:
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	1364 shift("shrl",oreg,reg);
144 56211702f298 creg/freg continue kono parents: 139 diff changeset	1365 regv[creg]=1;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1366 return;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1367 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1368 if(oreg==-1) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1369 printf("\tpopl %s\n",register_name(dreg,0));
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1370 oreg = dreg;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1371 regv[dreg]=1;
94 1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	1372 } else if (oreg<= -REG_LVAR_OFFSET) {
119 b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	1373 code_rlvar(oreg+REG_LVAR_OFFSET,dreg);
117 2d5a203cc3a6 lvar reuse kono parents: 116 diff changeset	1374 free_lvar(oreg+REG_LVAR_OFFSET);
94 1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	1375 oreg = dreg;
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	1376 regv[dreg]=1;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1377 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1378 regv[oreg]=1; regs[oreg]=1;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1379 orn = register_name(oreg,0);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1380 crn = register_name(creg,0);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1381 switch(op) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1382 case ADD:
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1383 printf("\taddl %s,%s\n",orn,crn);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1384 break;
89 917947ffeb7c power pc version kono parents: 87 diff changeset	1385 case SUB: case CMP:
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1386 printf("\tsubl %s,%s\n",orn,crn);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1387 break;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1388 case BAND:
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1389 printf("\tandl %s,%s\n",orn,crn);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1390 break;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1391 case EOR:
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1392 printf("\txorl %s,%s\n",orn,crn);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1393 break;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1394 case BOR:
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1395 printf("\torl %s,%s\n",orn,crn);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1396 break;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1397 case MUL:
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1398 case UMUL:
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1399 printf("\t%s %s,%s\n","imull",orn,crn);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1400 break;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1401 case DIV:
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1402 case UDIV:
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1403 use_register(creg,REG_EAX,1);
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	1404 edx_setup(REG_EDX);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1405 orn = register_name(oreg,0);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1406 if (op==DIV)
127 eb4d8975926c Intel float fix kono parents: 126 diff changeset	1407 printf("\tcltd\n\tidivl %s\n",orn);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1408 else
127 eb4d8975926c Intel float fix kono parents: 126 diff changeset	1409 printf("\txor %%edx,%%edx\n\tdivl %s\n",orn);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1410 edx_cleanup();
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1411 break;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1412 case MOD:
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1413 case UMOD:
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1414 use_register(creg,REG_EAX,1);
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	1415 edx_setup(REG_EDX);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1416 orn = register_name(oreg,0);
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	1417 if (op==MOD)
127 eb4d8975926c Intel float fix kono parents: 126 diff changeset	1418 printf("\tcltd\n\tidivl %s\n",orn);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1419 else
127 eb4d8975926c Intel float fix kono parents: 126 diff changeset	1420 printf("\txor %%edx,%%edx\n\tdivl %s\n",orn);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1421 dx = virtual(REG_EDX);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1422 if (dx!=creg) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1423 rname[dx]=rname[creg];
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1424 rname[creg]=REG_EDX;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1425 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1426 edx_cleanup();
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1427 break;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1428 }
159 b80e9737c3ce regs[creg]==0 in ia32 kono parents: 156 diff changeset	1429 if (oreg!=dreg&&oreg!=creg&&oreg>=0)
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1430 free_register(oreg);
94 1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	1431 else if (oreg==dreg) regv[dreg]=0;
144 56211702f298 creg/freg continue kono parents: 139 diff changeset	1432 regv[creg]=1;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1433 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1434
189 f53d70110377 immediate instructions. kono parents: 187 diff changeset	1435 int
240 b59364f5b030 * empty log message * kono parents: 239 diff changeset	1436 code_const_op_p(int op,int e)
189 f53d70110377 immediate instructions. kono parents: 187 diff changeset	1437 {
240 b59364f5b030 * empty log message * kono parents: 239 diff changeset	1438 if (car(e)!=CONST) return 0;
190 1b1c58483e67 minor fix kono parents: 189 diff changeset	1439 if (op==DIV\|\|op==UDIV\|\|op==MOD\|\|op==UMOD) return 0;
189 f53d70110377 immediate instructions. kono parents: 187 diff changeset	1440 else return 1;
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1441 }
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1442
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1443 void
225 8675ea3d2c7f * empty log message * kono parents: 224 diff changeset	1444 oprtc(int op,int reg,int orn)
189 f53d70110377 immediate instructions. kono parents: 187 diff changeset	1445 {
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	1446 char *crn;
c575422d8b6e * empty log message * kono parents: 230 diff changeset	1447 use_int(reg);
c575422d8b6e * empty log message * kono parents: 230 diff changeset	1448 crn = register_name(reg,0);
240 b59364f5b030 * empty log message * kono parents: 239 diff changeset	1449 orn = cadr(orn);
189 f53d70110377 immediate instructions. kono parents: 187 diff changeset	1450
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1451 switch(op) {
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1452 case LSHIFT:
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1453 case ULSHIFT:
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1454 printf("\tsall $%d,%s\n",orn,crn);
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1455 return;
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1456 case RSHIFT:
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1457 printf("\tsarl $%d,%s\n",orn,crn);
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1458 return;
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1459 case URSHIFT:
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1460 printf("\tshrl $%d,%s\n",orn,crn);
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1461 return;
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1462 case ADD:
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1463 printf("\taddl $%d,%s\n",orn,crn);
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1464 break;
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1465 case SUB: case CMP:
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1466 printf("\tsubl $%d,%s\n",orn,crn);
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1467 break;
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1468 case BAND:
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1469 printf("\tandl $%d,%s\n",orn,crn);
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1470 break;
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1471 case EOR:
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1472 printf("\txorl $%d,%s\n",orn,crn);
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1473 break;
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1474 case BOR:
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1475 printf("\torl $%d,%s\n",orn,crn);
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1476 break;
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1477 case MUL:
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1478 case UMUL:
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1479 printf("\t%s $%d,%s\n","imull",orn,crn);
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1480 break;
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1481 default:
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1482 error(-1);
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1483 }
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1484 }
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1485
f53d70110377 immediate instructions. kono parents: 187 diff changeset	1486
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1487 static int edx_stack=0;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1488
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1489 int
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	1490 edx_setup(int rreg)
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1491 {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1492 int edx_save;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1493 /* make real EDX register empty */
137 9fb09db54436 fix powerpc get_fregister_var's regs error. kono parents: 136 diff changeset	1494 if (free_register_count(0)<1) {
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1495 for(edx_save = 0;edx_save==dreg\|\|edx_save==creg;edx_save++);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1496 printf("\tpushl %s\n",register_name(edx_save,0));
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1497 edx_stack = list3(edx_save,edx_stack,0);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1498 } else {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1499 edx_save = get_register();
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1500 edx_stack = list3(edx_save,edx_stack,1);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1501 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1502 regv[edx_save]=0;
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	1503 if (rreg!=-1)
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	1504 use_register(edx_save,rreg,0);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1505 return edx_save;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1506 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1507
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1508
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1509 void
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1510 edx_cleanup()
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1511 {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1512 if (caddr(edx_stack)==0) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1513 printf("\tpopl %s\n",register_name(car(edx_stack),0));
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1514 } else
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1515 free_register(car(edx_stack));
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1516 edx_stack = cadr(edx_stack);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1517 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1518
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1519 void
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	1520 shift(char *op, int reg,int creg)
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1521 {
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	1522 use_int(creg);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1523 if (reg>=0) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1524 use_register(reg,REG_ECX,1);
103 f849af4b5ea9 * empty log message * kono parents: 102 diff changeset	1525 } else if (reg<= -REG_LVAR_OFFSET) {
f849af4b5ea9 * empty log message * kono parents: 102 diff changeset	1526 use_register(dreg,REG_ECX,0);
119 b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	1527 code_rlvar(reg+REG_LVAR_OFFSET,dreg);
103 f849af4b5ea9 * empty log message * kono parents: 102 diff changeset	1528 reg = dreg;
f849af4b5ea9 * empty log message * kono parents: 102 diff changeset	1529 regv[dreg]=0;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1530 } else {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1531 use_register(dreg,REG_ECX,0);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1532 printf("\tpopl %%ecx\n");
103 f849af4b5ea9 * empty log message * kono parents: 102 diff changeset	1533 regv[dreg]=0;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1534 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1535 printf("\t%s %%cl,%s\n",op,register_name(creg,0));
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1536 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1537
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1538 void
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	1539 ld_indexx(int byte, int n, int xreg,int reg,int sign)
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1540 {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1541 char *op;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1542
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	1543 use_int(reg);
166 9e55cc5551fb * empty log message * kono parents: 165 diff changeset	1544 op = byte ? (sign?"movsbl":"movzbl") : "movl";
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1545 if (n)
95 185d2cc6a3a9 * empty log message * kono parents: 94 diff changeset	1546 printf("\t%s %d(%s),%s\n",op,n,
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	1547 register_name(xreg,0),register_name(reg,byte));
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1548 else
95 185d2cc6a3a9 * empty log message * kono parents: 94 diff changeset	1549 printf("\t%s (%s),%s\n",op,
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	1550 register_name(xreg,0),register_name(reg,byte));
95 185d2cc6a3a9 * empty log message * kono parents: 94 diff changeset	1551 }
185d2cc6a3a9 * empty log message * kono parents: 94 diff changeset	1552
185d2cc6a3a9 * empty log message * kono parents: 94 diff changeset	1553 int
185d2cc6a3a9 * empty log message * kono parents: 94 diff changeset	1554 code_csvalue()
185d2cc6a3a9 * empty log message * kono parents: 94 diff changeset	1555 {
123 5f180dc8d84e intel fix. kono parents: 119 diff changeset	1556 return rname[creg]; /* for switch value */
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1557 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1558
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1559 void
95 185d2cc6a3a9 * empty log message * kono parents: 94 diff changeset	1560 code_cmpdimm(int e, int csreg)
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1561 {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1562 /* used in dosiwtch() */
66 0b068058dd67 * empty log message * kono parents: 63 diff changeset	1563 if(chk) return;
123 5f180dc8d84e intel fix. kono parents: 119 diff changeset	1564 use_register(creg,csreg,0);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1565 printf("\tcmpl $%d,%s\n",e,register_name(creg,0));
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1566 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1567
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1568 void
66 0b068058dd67 * empty log message * kono parents: 63 diff changeset	1569 code_opening(char *filename)
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1570 {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1571 printf("\t.file \"%s\"\n",filename);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1572 printf("\t.version\t\"01.01\"\n");
66 0b068058dd67 * empty log message * kono parents: 63 diff changeset	1573 /* printf("gcc2_compiled.:\n"); */
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1574 printf(".text\n");
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1575 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1576
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1577 void
66 0b068058dd67 * empty log message * kono parents: 63 diff changeset	1578 code_closing()
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1579 {
78 8418d4b7caa7 * empty log message * kono parents: 77 diff changeset	1580 global_table();
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1581 printf("\t.ident \"Micro-C compiled\"\n");
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1582 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1583
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1584 void
89 917947ffeb7c power pc version kono parents: 87 diff changeset	1585 rexpr(int e1, int l1, char *s,int t)
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1586 {
89 917947ffeb7c power pc version kono parents: 87 diff changeset	1587 g_expr(list3(CMP,cadr(e1),caddr(e1)));
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1588 printf("\tj%s\t_%d\n",s,l1);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1589 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1590
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1591
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1592 void
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1593 jcond(int l, char cond)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1594 {
66 0b068058dd67 * empty log message * kono parents: 63 diff changeset	1595 if (chk) return;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1596 printf("\tj%s\t_%d\n",cond?"ne":"e",l);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1597 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1598
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1599 void
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1600 jmp(int l)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1601 {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1602 control=0;
66 0b068058dd67 * empty log message * kono parents: 63 diff changeset	1603 if (chk) return;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1604 printf("\tjmp\t_%d\n",l);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1605 /* align? */
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1606 /*
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1607 this is not allowed because of ? operator
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1608 regv[creg]=regv[dreg]=0;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1609 use_register(creg,REG_EAX,0);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1610 use_register(dreg,REG_EBX,0);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1611 */
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1612 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1613
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1614 void
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1615 gen_comment(char *s)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1616 {
66 0b068058dd67 * empty log message * kono parents: 63 diff changeset	1617 if (chk) return;
0b068058dd67 * empty log message * kono parents: 63 diff changeset	1618 printf("## %s",s);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1619 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1620
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1621
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1622 void
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1623 code_enter(char *name)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1624 {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1625 printf("\t.align 4\n");
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1626 if (stmode!=STATIC)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1627 printf(".globl %s\n",name);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1628 printf("\t.type\t%s,@function\n",name);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1629 printf("%s:\n",name);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1630 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1631
77 2b8ba655e572 fix arg type kono parents: 66 diff changeset	1632
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1633 void
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1634 code_enter1(int args)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1635 {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1636 code_disp_label=fwdlabel();
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1637 printf("\tlea _%d(%%ebp),%%esp\n",code_disp_label);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1638
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1639 printf("## args %d disp %d code_arg_offset=%d code_disp_offset=%d\n",args,disp,code_arg_offset,code_disp_offset);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1640 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1641
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1642 void
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1643 code_leave(char *name)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1644 {
242 c68f618b71f9 ia32 long long done. some error remains. kono parents: 241 diff changeset	1645 disp &= -size_of_int;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1646 printf("\t.set _%d,%d\n",code_disp_label,disp+code_disp_offset);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1647 printf("_%d:\n",labelno);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1648 printf("\t.size\t%s,_%d-%s\n",name,labelno,name);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1649 local_table();
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1650 labelno++;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1651 free_all_register();
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1652 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1653
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1654 void
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1655 enter(char *name)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1656 {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1657 printf("\t.align 2\n");
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1658 if (stmode!=STATIC)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1659 printf(".globl %s\n",name);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1660 printf("%s:\n",name);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1661 printf("\t.type\t%s,@function\n",name);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1662 printf("\tpushl %%ebp\n");
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1663 printf("\tmovl %%esp,%%ebp\n");
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1664 printf("\tpushl %%ebx\n");
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1665 printf("\tpushl %%esi\n");
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1666 printf("\tpushl %%edi\n");
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1667 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1668
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1669 void
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1670 enter1()
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1671 {
182 e1e9ec8c96a7 some fix kono parents: 173 diff changeset	1672 text_mode();
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1673 func_disp_label=fwdlabel();
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1674 printf("\tlea _%d(%%ebp),%%esp\n",func_disp_label);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1675 /* if(disp) printf("\tsubl $%d,%%esp\n",-disp); */
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1676 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1677
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1678 void
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1679 leave(int control, char *name)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1680 {
128 d497c39add36 arg.c works (?) kono parents: 127 diff changeset	1681 int sz;
d497c39add36 arg.c works (?) kono parents: 127 diff changeset	1682
d497c39add36 arg.c works (?) kono parents: 127 diff changeset	1683 disp &= -size_of_int;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1684 if (control)
108 69e2e763cce5 object assemble first try. kono parents: 107 diff changeset	1685 code_set_return_register(1);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1686 if (retcont) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1687 if (control)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1688 jmp(retlabel);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1689 fwddef(retcont);
128 d497c39add36 arg.c works (?) kono parents: 127 diff changeset	1690 if (cadr(fnptr->ty)==FLOAT\|\|cadr(fnptr->ty)==DOUBLE) {
d497c39add36 arg.c works (?) kono parents: 127 diff changeset	1691 printf("\tfldl %d(%%ebp)\n",-size_of_double);
d497c39add36 arg.c works (?) kono parents: 127 diff changeset	1692 } else if (cadr(fnptr->ty)>0&&(
d497c39add36 arg.c works (?) kono parents: 127 diff changeset	1693 car(cadr(fnptr->ty))==STRUCT \|\|
d497c39add36 arg.c works (?) kono parents: 127 diff changeset	1694 car(cadr(fnptr->ty))==UNION)) {
d497c39add36 arg.c works (?) kono parents: 127 diff changeset	1695 sz = size(cadr(fnptr->ty));
d497c39add36 arg.c works (?) kono parents: 127 diff changeset	1696 printf("\tlea %d(%%ebp),%s\n",-sz,register_name(dreg,0));
d497c39add36 arg.c works (?) kono parents: 127 diff changeset	1697 printf("\tmovl %d(%%ebp),%s\n",disp-size_of_int,
d497c39add36 arg.c works (?) kono parents: 127 diff changeset	1698 register_name(creg,0));
d497c39add36 arg.c works (?) kono parents: 127 diff changeset	1699 emit_copy(dreg,creg,sz,0,1,1);
d497c39add36 arg.c works (?) kono parents: 127 diff changeset	1700 } else if (cadr(fnptr->ty)!=VOID) {
d497c39add36 arg.c works (?) kono parents: 127 diff changeset	1701 use_register(creg,REG_EAX,0);
d497c39add36 arg.c works (?) kono parents: 127 diff changeset	1702 printf("\tmovl %s,%s\n",reg_name[REG_ESI],register_name(creg,0));
d497c39add36 arg.c works (?) kono parents: 127 diff changeset	1703 }
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1704 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1705 fwddef(retlabel);
63 e13486b2c12e stack alignment kono parents: 62 diff changeset	1706
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1707 printf("\tlea %d(%%ebp),%%esp\n",disp_offset);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1708 printf("\tpopl %%edi\n");
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1709 printf("\tpopl %%esi\n");
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1710 printf("\tpopl %%ebx\n");
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1711 printf("\tleave\n");
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1712 printf("\tret\n");
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1713 printf("\t.set _%d,%d\n",func_disp_label,disp+disp_offset);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1714 printf("_%d:\n",labelno);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1715 printf("\t.size\t%s,_%d-%s\n",name,labelno,name);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1716 local_table();
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1717 labelno++;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1718 free_all_register();
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1719 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1720
187 dffcccf8b1cb nested COND kono parents: 186 diff changeset	1721 int
dffcccf8b1cb nested COND kono parents: 186 diff changeset	1722 code_get_fixed_creg(int reg,int type) {
dffcccf8b1cb nested COND kono parents: 186 diff changeset	1723 if (type==FLOAT\|\|type==DOUBLE) {
dffcccf8b1cb nested COND kono parents: 186 diff changeset	1724 return 0;
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1725 } else if (type==LONGLONG\|\|type==ULONGLONG) {
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1726 use_longlong(reg);
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1727 return reg;
187 dffcccf8b1cb nested COND kono parents: 186 diff changeset	1728 } else {
236 7353a818858c ia32 code creg fix done kono parents: 235 diff changeset	1729 use_int(reg);
187 dffcccf8b1cb nested COND kono parents: 186 diff changeset	1730 return rname[reg];
dffcccf8b1cb nested COND kono parents: 186 diff changeset	1731 }
dffcccf8b1cb nested COND kono parents: 186 diff changeset	1732 }
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1733
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1734 void
187 dffcccf8b1cb nested COND kono parents: 186 diff changeset	1735 code_set_fixed_creg(int reg,int mode,int type) {
108 69e2e763cce5 object assemble first try. kono parents: 107 diff changeset	1736 if (type==FLOAT\|\|type==DOUBLE) {
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1737 } else if (type==LONGLONG\|\|type==ULONGLONG) {
187 dffcccf8b1cb nested COND kono parents: 186 diff changeset	1738 } else {
dffcccf8b1cb nested COND kono parents: 186 diff changeset	1739 use_register(creg,reg,mode);
dffcccf8b1cb nested COND kono parents: 186 diff changeset	1740 }
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1741 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1742
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1743 void
107 06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	1744 code_set_return_register(int mode) {
06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	1745 if (fnptr->ty==DOUBLE\|\|fnptr->ty==FLOAT) {
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1746 } else if (fnptr->ty==LONGLONG\|\|fnptr->ty==ULONGLONG) {
243 c311c26e006a * empty log message * kono parents: 242 diff changeset	1747 use_longlong0(USE_CREG);
107 06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	1748 } else {
06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	1749 use_register(creg,REG_EAX,mode);
06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	1750 }
06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	1751 }
06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	1752
06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	1753 void
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1754 gen_gdecl(char *n, int gpc)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1755 {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1756 /*
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1757 if (stmode!=STATIC)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1758 printf(".globl %s\n",n);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1759 */
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1760 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1761
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1762 void
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1763 align(int t)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1764 {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1765 if (t!=CHAR) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1766 if (data_alignment & 1)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1767 printf("\t.align 2\n");
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1768 data_alignment = 0;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1769 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1770 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1771
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1772 #if LONGLONG_CODE
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1773 static long long ll0 = 1LL;
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1774
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1775 static int
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1776 code_l1(long long d)
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1777 {
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1778 int i = (int )&ll0; int j = (int )&d;
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1779 return (i[1] == 1)?j[1]:j[0];
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1780 }
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1781
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1782 static int
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1783 code_l2(long long d)
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1784 {
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1785 int i = (int )&ll0; int j = (int )&d;
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1786 return (i[1] == 1)?j[0]:j[1];
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1787 }
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1788 #endif
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1789
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1790 void
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1791 emit_data(int e, int t, NMTBL *n)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1792 {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1793 int l;
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	1794 #if FLOAT_CODE
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1795 double d;
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1796 float f;
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	1797 #endif
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1798 #if LONGLONG_CODE
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1799 long long ll;
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1800 #endif
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1801 char *name;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1802 name = n->nm;
156 da529eab5618 static initialization kono parents: 147 diff changeset	1803 if(mode!=GDECL && mode!=STADECL) {
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1804 error(-1); return;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1805 }
66 0b068058dd67 * empty log message * kono parents: 63 diff changeset	1806 if (chk) return;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1807 if (n->dsp != -1) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1808 n->dsp = -1; /* initiallized flag */
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1809 printf(".globl\t%s\n",name);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1810 data_mode(name);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1811 align(t);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1812 printf("%s:\n",name);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1813 } else {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1814 data_mode(0);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1815 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1816 if(car(e)==CONST) {
168 b1297c82e926 cpostinc removal kono parents: 167 diff changeset	1817 if (t==CHAR\|\|t==UCHAR) {
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1818 printf("\t.byte %d\n",cadr(e));
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1819 if (data_alignment>0)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1820 data_alignment++;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1821 gpc += 1;
168 b1297c82e926 cpostinc removal kono parents: 167 diff changeset	1822 } else if (t==SHORT\|\|t==USHORT) {
b1297c82e926 cpostinc removal kono parents: 167 diff changeset	1823 printf("\t.short %d\n",cadr(e));
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1824 if (data_alignment>0) data_alignment++;
168 b1297c82e926 cpostinc removal kono parents: 167 diff changeset	1825 gpc += size_of_short;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1826 } else {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1827 printf("\t.long %d\n",cadr(e));
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1828 gpc += size_of_int;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1829 }
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1830 #if LONGLONG_CODE
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1831 } else if(t==LONGLONG\|\|t==ULONGLONG) {
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1832 ll = lcadr(e);
243 c311c26e006a * empty log message * kono parents: 242 diff changeset	1833 printf("\t.long\t0x%x,0x%x\n",code_l1(ll),code_l2(ll));
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	1834 #endif
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	1835 #if FLOAT_CODE
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1836 } else if(t==DOUBLE) {
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1837 d = dcadr(e);
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1838 printf("\t.long\t0x%x,0x%x\n",code_d1(d),code_d2(d));
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1839 } else if(t==FLOAT) {
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1840 f = dcadr(e);
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1841 printf("\t.long\t0x%x\n",(int )&f);
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	1842 #endif
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1843 } else if(t!=CHAR) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1844 gpc += size_of_int;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1845 if(car(e)==ADDRESS&&car(cadr(e))==GVAR) {
109 e09f9de6f5d3 * empty log message * kono parents: 108 diff changeset	1846 printf("\t.long %s\n",((NMTBL *)cadr(cadr(e)))->nm);
e09f9de6f5d3 * empty log message * kono parents: 108 diff changeset	1847 } else if(car(e)==GVAR) {
e09f9de6f5d3 * empty log message * kono parents: 108 diff changeset	1848 printf("\t.long %s\n",((NMTBL *)cadr(e))->nm);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1849 } else if(car(e)==FNAME) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1850 printf("\t.long %s\n",((NMTBL *)cadr(e))->nm);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1851 } else if(car(e)==STRING) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1852 if (car(n->ty)!=ARRAY \|\| cadr(n->ty)!=CHAR) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1853 l = fwdlabel();
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1854 printf("\t.long _%d\n",l);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1855 printf(".section\t.rodata\n");
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1856 printf("_%d:\n",l);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1857 output_mode = RODATA_EMIT_MODE;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1858 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1859 ascii((char *)cadr(e));
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1860 } else error(TYERR);
168 b1297c82e926 cpostinc removal kono parents: 167 diff changeset	1861 } else error(TYERR);
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1862 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1863
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1864 void
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1865 emit_data_closing(NMTBL *n)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1866 {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1867 int lb;
66 0b068058dd67 * empty log message * kono parents: 63 diff changeset	1868 if (chk) return;
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1869 if (mode==GDECL) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1870 data_mode(0);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1871 lb=fwdlabel();
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1872 printf("_%d:\n",lb);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1873 printf("\t.size\t%s,_%d-%s\n",n->nm,lb,n->nm);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1874 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1875 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1876
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1877 void
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1878 global_table(void)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1879 {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1880 NMTBL *n;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1881 int init;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1882 init=0;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1883 for(n=ntable;n < &ntable[GSYMS];n++) {
117 2d5a203cc3a6 lvar reuse kono parents: 116 diff changeset	1884 if ((n->sc == GVAR\|\|n->sc == STATIC) && n->dsp != -1) {
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1885 /* n->dsp = -1 means initialized global */
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1886 if (init==0) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1887 data_mode(0);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1888 init=1;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1889 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1890 printf(".comm %s,%d\n",n->nm,size(n->ty));
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1891 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1892 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1893 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1894
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1895 void
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1896 local_table(void)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1897 {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1898 NMTBL *n;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1899 int init;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1900 init=0;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1901 /* static local variables */
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1902 for(n=ntable+GSYMS;n < &ntable[GSYMS+LSYMS];n++) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1903 if (n->sc == GVAR) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1904 if (init==0) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1905 data_mode(0);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1906 init=1;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1907 }
156 da529eab5618 static initialization kono parents: 147 diff changeset	1908 if (n->dsp!= -1) /* -1 means initialized global */
da529eab5618 static initialization kono parents: 147 diff changeset	1909 printf(".lcomm %s,%d\n",n->nm,size(n->ty));
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1910 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1911 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1912 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1913
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1914 void
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1915 text_mode(void)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1916 {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1917 if (output_mode!=TEXT_EMIT_MODE) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1918 printf(".text\n");
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1919 printf("\t.align 2\n");
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1920 output_mode = TEXT_EMIT_MODE;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1921 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1922 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1923
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1924 void
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1925 data_mode(char *name)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1926 {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1927 if (output_mode!=DATA_EMIT_MODE) {
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1928 printf(".data\n");
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1929 output_mode = DATA_EMIT_MODE;
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1930 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1931 if (name)
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1932 printf("\t.type\t%s,@object\n",name);
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1933 }
8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	1934
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	1935 #if FLOAT_CODE
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	1936
81 f94ca1168520 float first try... kono parents: 78 diff changeset	1937 /* floating point */
f94ca1168520 float first try... kono parents: 78 diff changeset	1938
f94ca1168520 float first try... kono parents: 78 diff changeset	1939
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1940 char *
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1941 fstore(int d)
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1942 {
83 f3f75911d62c * empty log message * kono parents: 82 diff changeset	1943 return use?
f3f75911d62c * empty log message * kono parents: 82 diff changeset	1944 (d?"fstl":"fsts"):
f3f75911d62c * empty log message * kono parents: 82 diff changeset	1945 (d?"fstpl":"fstps")
f3f75911d62c * empty log message * kono parents: 82 diff changeset	1946 ;
f3f75911d62c * empty log message * kono parents: 82 diff changeset	1947 }
f3f75911d62c * empty log message * kono parents: 82 diff changeset	1948
f3f75911d62c * empty log message * kono parents: 82 diff changeset	1949 char *
f3f75911d62c * empty log message * kono parents: 82 diff changeset	1950 fstore_u(int d)
f3f75911d62c * empty log message * kono parents: 82 diff changeset	1951 {
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1952 return d?"fstpl":"fstps";
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1953 }
81 f94ca1168520 float first try... kono parents: 78 diff changeset	1954
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1955 char *
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1956 fload(int d)
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1957 {
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1958 return d?"fldl":"flds";
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1959 }
81 f94ca1168520 float first try... kono parents: 78 diff changeset	1960
f94ca1168520 float first try... kono parents: 78 diff changeset	1961
103 f849af4b5ea9 * empty log message * kono parents: 102 diff changeset	1962 void code_dassign_gvar(int e2,int freg,int d)
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1963 {
109 e09f9de6f5d3 * empty log message * kono parents: 108 diff changeset	1964 printf("\t%s %s\n",fstore(d),((NMTBL*)cadr(e2))->nm);
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1965 }
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1966
103 f849af4b5ea9 * empty log message * kono parents: 102 diff changeset	1967 void code_dassign_lvar(int e2,int freg,int d)
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1968 {
119 b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	1969 printf("\t%s %d(%%ebp)\n",fstore(d),lvar(e2));
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1970 }
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1971
138 e6e77af048a1 float/dobule configuration kono parents: 137 diff changeset	1972 void code_dassign_dregister(int e,int d,int freg)
111 7aa449aff3e6 floating point kono parents: 109 diff changeset	1973 {
7aa449aff3e6 floating point kono parents: 109 diff changeset	1974 error(-1);
7aa449aff3e6 floating point kono parents: 109 diff changeset	1975 }
7aa449aff3e6 floating point kono parents: 109 diff changeset	1976
103 f849af4b5ea9 * empty log message * kono parents: 102 diff changeset	1977 void code_dassign(int e2,int freg,int d)
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1978 {
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1979 printf("\t%s (%s)\n",fstore(d),register_name(e2,0));
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1980 }
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1981
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1982 static double d0 = 1.0;
81 f94ca1168520 float first try... kono parents: 78 diff changeset	1983
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1984 int
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1985 code_d1(double d)
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1986 {
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1987 int i = (int )&d0; int j = (int )&d;
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1988 return (i[1] == 0x3ff00000)?j[0]:j[1];
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1989 }
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1990
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1991 int
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1992 code_d2(double d)
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1993 {
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1994 int i = (int )&d0; int j = (int )&d;
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1995 return (i[1] == 0x3ff00000)?j[1]:j[0];
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1996 }
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1997
138 e6e77af048a1 float/dobule configuration kono parents: 137 diff changeset	1998 void code_dconst(int e2,int freg,int d)
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	1999 {
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2000 int lb;
138 e6e77af048a1 float/dobule configuration kono parents: 137 diff changeset	2001 double value = dcadr(e2);
81 f94ca1168520 float first try... kono parents: 78 diff changeset	2002
138 e6e77af048a1 float/dobule configuration kono parents: 137 diff changeset	2003 if (value==0.0) {
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2004 printf("\tfldz\n"); return;
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2005 }
138 e6e77af048a1 float/dobule configuration kono parents: 137 diff changeset	2006 if (value==1.0) {
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2007 printf("\tfld1\n"); return;
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2008 }
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2009 printf(" \t.section\t.rodata\n\t.align 8\n");
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2010 lb=fwdlabel();
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2011 printf("_%d:\n",lb);
138 e6e77af048a1 float/dobule configuration kono parents: 137 diff changeset	2012 printf("\t.long\t0x%x,0x%x\n",code_d1(value),code_d2(value));
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2013 if (output_mode==TEXT_EMIT_MODE) {
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2014 printf(".text\n");
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2015 } else {
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2016 text_mode();
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2017 }
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2018 printf("\tfldl _%d\n",lb);
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2019 }
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2020
138 e6e77af048a1 float/dobule configuration kono parents: 137 diff changeset	2021 void code_dneg(int freg,int d)
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2022 {
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2023 printf("\tfchs\n");
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2024 }
81 f94ca1168520 float first try... kono parents: 78 diff changeset	2025
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2026 void code_d2i(int reg)
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2027 {
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2028 use_int(reg);
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2029 printf("\tlea -%d(%%esp),%%esp\n",size_of_int*2);
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2030 printf("\tfnstcw (%%esp)\n");
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2031 printf("\tmovl (%%esp), %s\n",register_name(creg,0));
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2032 printf("\tmovb $12, 1(%%esp)\n");
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2033 printf("\tfldcw (%%esp)\n");
85 3789aef7331d minor fix kono parents: 84 diff changeset	2034 printf("\tfistpl %d(%%esp)\n",size_of_int);
127 eb4d8975926c Intel float fix kono parents: 126 diff changeset	2035 printf("\tmovl %s, (%%esp)\n",register_name(creg,0));
85 3789aef7331d minor fix kono parents: 84 diff changeset	2036 printf("\tfldcw (%%esp)\n");
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2037 printf("\tpopl %s\n",register_name(creg,0));
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2038 printf("\tpopl %s\n",register_name(creg,0));
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2039 }
81 f94ca1168520 float first try... kono parents: 78 diff changeset	2040
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2041 void code_i2d(int reg)
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2042 {
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2043 printf("\tpushl %s\n",register_name(creg,0));
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2044 printf("\tfildl (%%esp)\n");
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2045 printf("\tlea %d(%%esp),%%esp\n",size_of_int);
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2046 }
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2047
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2048 void code_d2u(int reg)
85 3789aef7331d minor fix kono parents: 84 diff changeset	2049 {
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2050 use_int(reg);
86 4d1275f8a5b5 * empty log message * kono parents: 85 diff changeset	2051 printf("\tlea -%d(%%esp),%%esp\n",size_of_int*3);
85 3789aef7331d minor fix kono parents: 84 diff changeset	2052 printf("\tfnstcw (%%esp)\n");
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2053 printf("\tmovl (%%esp), %s\n",register_name(reg,0));
85 3789aef7331d minor fix kono parents: 84 diff changeset	2054 printf("\tmovb $12, 1(%%esp)\n");
3789aef7331d minor fix kono parents: 84 diff changeset	2055 printf("\tfldcw (%%esp)\n");
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2056 printf("\tmovl %s, (%%esp)\n",register_name(reg,0));
86 4d1275f8a5b5 * empty log message * kono parents: 85 diff changeset	2057 printf("\tfistpll %d(%%esp)\n",size_of_int);
85 3789aef7331d minor fix kono parents: 84 diff changeset	2058 printf("\tfldcw (%%esp)\n");
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2059 printf("\tmovl %d(%%esp),%s\n",size_of_int,register_name(reg,0));
86 4d1275f8a5b5 * empty log message * kono parents: 85 diff changeset	2060 printf("\tlea %d(%%esp),%%esp\n",size_of_int*3);
85 3789aef7331d minor fix kono parents: 84 diff changeset	2061 }
3789aef7331d minor fix kono parents: 84 diff changeset	2062
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2063 void code_u2d(int reg)
85 3789aef7331d minor fix kono parents: 84 diff changeset	2064 {
86 4d1275f8a5b5 * empty log message * kono parents: 85 diff changeset	2065 printf("\tpushl %s\n",register_name(creg,0));
4d1275f8a5b5 * empty log message * kono parents: 85 diff changeset	2066 printf("\tpushl %s\n",register_name(creg,0));
4d1275f8a5b5 * empty log message * kono parents: 85 diff changeset	2067 printf("\tmovl $0, %d(%%esp)\n",size_of_int);
4d1275f8a5b5 * empty log message * kono parents: 85 diff changeset	2068 printf("\tfildll (%%esp)\n");
4d1275f8a5b5 * empty log message * kono parents: 85 diff changeset	2069 printf("\tlea %d(%%esp),%%esp\n",size_of_int*2);
85 3789aef7331d minor fix kono parents: 84 diff changeset	2070 }
3789aef7331d minor fix kono parents: 84 diff changeset	2071
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2072 void code_d2f(int reg) { }
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2073 void code_f2d(int reg) { }
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2074 void code_f2i(int reg) { code_d2i(reg); }
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2075 void code_f2u(int reg) { code_d2u(reg); }
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2076 void code_i2f(int reg) { code_i2d(reg); }
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2077 void code_u2f(int reg) { code_u2d(reg); }
133 7d436c08e949 separate float / double flow kono parents: 128 diff changeset	2078
107 06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	2079 void code_drgvar(int e2,int d,int freg)
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2080 {
109 e09f9de6f5d3 * empty log message * kono parents: 108 diff changeset	2081 printf("\t%s %s\n",fload(d),((NMTBL*)cadr(e2))->nm);
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2082 }
81 f94ca1168520 float first try... kono parents: 78 diff changeset	2083
f94ca1168520 float first try... kono parents: 78 diff changeset	2084
107 06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	2085 void code_drlvar(int e2,int d,int freg)
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2086 {
119 b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	2087 printf("\t%s %d(%%ebp)\n",fload(d),lvar(e2));
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2088 }
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2089
225 8675ea3d2c7f * empty log message * kono parents: 224 diff changeset	2090 void code_cmp_drgvar(int e2,int reg,int d)
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2091 {
109 e09f9de6f5d3 * empty log message * kono parents: 108 diff changeset	2092 printf("\tfcomp %s\n",((NMTBL*)cadr(e2))->nm);
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2093 }
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2094
225 8675ea3d2c7f * empty log message * kono parents: 224 diff changeset	2095 void code_cmp_drlvar(int e2,int reg,int d)
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2096 {
119 b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	2097 printf("\tfcomp %d(%%ebp)\n",lvar(e2));
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2098 }
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2099
225 8675ea3d2c7f * empty log message * kono parents: 224 diff changeset	2100 void dtosop(int op,int reg,int e1)
94 1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2101 {
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2102 switch(op) {
133 7d436c08e949 separate float / double flow kono parents: 128 diff changeset	2103 case FADD:
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2104 case DADD: printf("\tfaddp %%st,%%st(1)\n"); break;
133 7d436c08e949 separate float / double flow kono parents: 128 diff changeset	2105 case FSUB:
85 3789aef7331d minor fix kono parents: 84 diff changeset	2106 case DSUB: printf("\tfsubp %%st,%%st(1)\n"); break;
133 7d436c08e949 separate float / double flow kono parents: 128 diff changeset	2107 case FDIV:
85 3789aef7331d minor fix kono parents: 84 diff changeset	2108 case DDIV: printf("\tfdivp %%st,%%st(1)\n"); break;
133 7d436c08e949 separate float / double flow kono parents: 128 diff changeset	2109 case FMUL:
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2110 case DMUL: printf("\tfmulp %%st,%%st(1)\n"); break;
133 7d436c08e949 separate float / double flow kono parents: 128 diff changeset	2111 case FCMP:
89 917947ffeb7c power pc version kono parents: 87 diff changeset	2112 case DCMP:
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2113 printf("\tfucompp\n");
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2114 printf("\tfnstsw\t%%ax\n");
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2115 break;
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2116 }
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2117 }
81 f94ca1168520 float first try... kono parents: 78 diff changeset	2118
83 f3f75911d62c * empty log message * kono parents: 82 diff changeset	2119 void
225 8675ea3d2c7f * empty log message * kono parents: 224 diff changeset	2120 code_dassop(int op,int reg,int d) {
83 f3f75911d62c * empty log message * kono parents: 82 diff changeset	2121 /* we have lvalue in creg, applied floating value is in %st(0) */
102 3cf2f8c120b9 * empty log message * kono parents: 99 diff changeset	2122 emit_dpop(d); /* do nothing for 387 */
83 f3f75911d62c * empty log message * kono parents: 82 diff changeset	2123 printf("\t%s (%s)\n",fload(d),register_name(creg,0));
225 8675ea3d2c7f * empty log message * kono parents: 224 diff changeset	2124 dtosop(op,reg,0);
83 f3f75911d62c * empty log message * kono parents: 82 diff changeset	2125 printf("\t%s (%s)\n",fstore(d),register_name(creg,0));
f3f75911d62c * empty log message * kono parents: 82 diff changeset	2126 }
f3f75911d62c * empty log message * kono parents: 82 diff changeset	2127
f3f75911d62c * empty log message * kono parents: 82 diff changeset	2128 void
219 6190d24e178c long long code generation level 4 kono parents: 213 diff changeset	2129 code_register_dassop(int reg,int op,int d) {
6190d24e178c long long code generation level 4 kono parents: 213 diff changeset	2130 error(-1);
6190d24e178c long long code generation level 4 kono parents: 213 diff changeset	2131 }
6190d24e178c long long code generation level 4 kono parents: 213 diff changeset	2132
6190d24e178c long long code generation level 4 kono parents: 213 diff changeset	2133 void
107 06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	2134 code_dpreinc(int e1,int e2,int d,int freg) {
83 f3f75911d62c * empty log message * kono parents: 82 diff changeset	2135 g_expr(e2);
f3f75911d62c * empty log message * kono parents: 82 diff changeset	2136 printf("\t%s (%s)\n",fload(d),register_name(creg,0));
f3f75911d62c * empty log message * kono parents: 82 diff changeset	2137 printf("\tfld1\n");
87 1738f313f98b floating point (at most) done. kono parents: 86 diff changeset	2138 if (caddr(e1)>0)
83 f3f75911d62c * empty log message * kono parents: 82 diff changeset	2139 printf("\tfaddp %%st,%%st(1)\n");
f3f75911d62c * empty log message * kono parents: 82 diff changeset	2140 else
f3f75911d62c * empty log message * kono parents: 82 diff changeset	2141 printf("\tfsubrp %%st,%%st(1)\n");
f3f75911d62c * empty log message * kono parents: 82 diff changeset	2142 printf("\t%s (%s)\n",fstore(d),register_name(creg,0));
f3f75911d62c * empty log message * kono parents: 82 diff changeset	2143 }
f3f75911d62c * empty log message * kono parents: 82 diff changeset	2144
f3f75911d62c * empty log message * kono parents: 82 diff changeset	2145 void
107 06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	2146 code_dpostinc(int e1,int e2,int d,int freg) {
83 f3f75911d62c * empty log message * kono parents: 82 diff changeset	2147 g_expr(e2);
f3f75911d62c * empty log message * kono parents: 82 diff changeset	2148 printf("\t%s (%s)\n",fload(d),register_name(creg,0));
f3f75911d62c * empty log message * kono parents: 82 diff changeset	2149 if (use)
86 4d1275f8a5b5 * empty log message * kono parents: 85 diff changeset	2150 printf("\t%s (%s)\n",fload(d),register_name(creg,0));
83 f3f75911d62c * empty log message * kono parents: 82 diff changeset	2151 printf("\tfld1\n");
87 1738f313f98b floating point (at most) done. kono parents: 86 diff changeset	2152 if (caddr(e1)>0)
83 f3f75911d62c * empty log message * kono parents: 82 diff changeset	2153 printf("\tfaddp %%st,%%st(1)\n");
f3f75911d62c * empty log message * kono parents: 82 diff changeset	2154 else
f3f75911d62c * empty log message * kono parents: 82 diff changeset	2155 printf("\tfsubrp %%st,%%st(1)\n");
87 1738f313f98b floating point (at most) done. kono parents: 86 diff changeset	2156 printf("\t%s (%s)\n",(use?fstore_u(d):fstore(d)),register_name(creg,0));
83 f3f75911d62c * empty log message * kono parents: 82 diff changeset	2157 }
f3f75911d62c * empty log message * kono parents: 82 diff changeset	2158
84 1a723130a2c7 condtional kono parents: 83 diff changeset	2159 void
230 d60c6c31f63a * empty log message * kono parents: 225 diff changeset	2160 drexpr(int e1, int e2,int l1, int op,int cond)
84 1a723130a2c7 condtional kono parents: 83 diff changeset	2161 {
236 7353a818858c ia32 code creg fix done kono parents: 235 diff changeset	2162 if (!cond) {
230 d60c6c31f63a * empty log message * kono parents: 225 diff changeset	2163 switch(op) {
236 7353a818858c ia32 code creg fix done kono parents: 235 diff changeset	2164 case FOP+GT:
7353a818858c ia32 code creg fix done kono parents: 235 diff changeset	2165 drexpr(e2,e1,l1,FOP+GE,1); return;
7353a818858c ia32 code creg fix done kono parents: 235 diff changeset	2166 case FOP+GE:
7353a818858c ia32 code creg fix done kono parents: 235 diff changeset	2167 drexpr(e2,e1,l1,FOP+GT,1); return;
7353a818858c ia32 code creg fix done kono parents: 235 diff changeset	2168 case FOP+EQ:
7353a818858c ia32 code creg fix done kono parents: 235 diff changeset	2169 op=FOP+NEQ; break;
7353a818858c ia32 code creg fix done kono parents: 235 diff changeset	2170 case FOP+NEQ:
7353a818858c ia32 code creg fix done kono parents: 235 diff changeset	2171 op=FOP+EQ; break;
7353a818858c ia32 code creg fix done kono parents: 235 diff changeset	2172 case DOP+GT:
7353a818858c ia32 code creg fix done kono parents: 235 diff changeset	2173 drexpr(e2,e1,l1,DOP+GE,1); return;
7353a818858c ia32 code creg fix done kono parents: 235 diff changeset	2174 case DOP+GE:
7353a818858c ia32 code creg fix done kono parents: 235 diff changeset	2175 drexpr(e2,e1,l1,DOP+GT,1); return;
7353a818858c ia32 code creg fix done kono parents: 235 diff changeset	2176 case DOP+EQ:
7353a818858c ia32 code creg fix done kono parents: 235 diff changeset	2177 op=DOP+NEQ; break;
7353a818858c ia32 code creg fix done kono parents: 235 diff changeset	2178 case DOP+NEQ:
7353a818858c ia32 code creg fix done kono parents: 235 diff changeset	2179 op=DOP+EQ; break;
230 d60c6c31f63a * empty log message * kono parents: 225 diff changeset	2180 }
d60c6c31f63a * empty log message * kono parents: 225 diff changeset	2181 }
236 7353a818858c ia32 code creg fix done kono parents: 235 diff changeset	2182
89 917947ffeb7c power pc version kono parents: 87 diff changeset	2183 g_expr(list3(DCMP,e1,e2));
84 1a723130a2c7 condtional kono parents: 83 diff changeset	2184 switch(op) {
1a723130a2c7 condtional kono parents: 83 diff changeset	2185 case DOP+GE:
133 7d436c08e949 separate float / double flow kono parents: 128 diff changeset	2186 case FOP+GE:
84 1a723130a2c7 condtional kono parents: 83 diff changeset	2187 printf("\ttestb\t$5,%%ah\n");
236 7353a818858c ia32 code creg fix done kono parents: 235 diff changeset	2188 printf("\tje\t_%d\n",l1);
84 1a723130a2c7 condtional kono parents: 83 diff changeset	2189 break;
1a723130a2c7 condtional kono parents: 83 diff changeset	2190 case DOP+GT:
133 7d436c08e949 separate float / double flow kono parents: 128 diff changeset	2191 case FOP+GT:
84 1a723130a2c7 condtional kono parents: 83 diff changeset	2192 printf("\ttestb\t$69,%%ah\n");
236 7353a818858c ia32 code creg fix done kono parents: 235 diff changeset	2193 printf("\tje\t_%d\n",l1);
84 1a723130a2c7 condtional kono parents: 83 diff changeset	2194 break;
1a723130a2c7 condtional kono parents: 83 diff changeset	2195 case DOP+EQ:
133 7d436c08e949 separate float / double flow kono parents: 128 diff changeset	2196 case FOP+EQ:
84 1a723130a2c7 condtional kono parents: 83 diff changeset	2197 printf("\tandb\t$69,%%ah\n");
1a723130a2c7 condtional kono parents: 83 diff changeset	2198 printf("\txorb\t$64,%%ah\n");
236 7353a818858c ia32 code creg fix done kono parents: 235 diff changeset	2199 printf("\tje\t_%d\n",l1);
84 1a723130a2c7 condtional kono parents: 83 diff changeset	2200 break;
1a723130a2c7 condtional kono parents: 83 diff changeset	2201 case DOP+NEQ:
133 7d436c08e949 separate float / double flow kono parents: 128 diff changeset	2202 case FOP+NEQ:
84 1a723130a2c7 condtional kono parents: 83 diff changeset	2203 printf("\tandb\t$69,%%ah\n");
1a723130a2c7 condtional kono parents: 83 diff changeset	2204 printf("\txorb\t$64,%%ah\n");
236 7353a818858c ia32 code creg fix done kono parents: 235 diff changeset	2205 printf("\tjne\t_%d\n",l1);
84 1a723130a2c7 condtional kono parents: 83 diff changeset	2206 break;
1a723130a2c7 condtional kono parents: 83 diff changeset	2207 }
1a723130a2c7 condtional kono parents: 83 diff changeset	2208 }
1a723130a2c7 condtional kono parents: 83 diff changeset	2209
94 1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2210 void
138 e6e77af048a1 float/dobule configuration kono parents: 137 diff changeset	2211 code_dregister(int e2,int freg,int d)
94 1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2212 {
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2213 error(-1);
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2214 }
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2215
138 e6e77af048a1 float/dobule configuration kono parents: 137 diff changeset	2216 void
e6e77af048a1 float/dobule configuration kono parents: 137 diff changeset	2217 code_cmp_dregister(int e2,int d)
94 1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2218 {
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	2219 if (e2!=USE_CREG)
c575422d8b6e * empty log message * kono parents: 230 diff changeset	2220 error(-1);
236 7353a818858c ia32 code creg fix done kono parents: 235 diff changeset	2221 printf("\tfldz\n");
235 c575422d8b6e * empty log message * kono parents: 230 diff changeset	2222 printf("\tfucompp\n");
c575422d8b6e * empty log message * kono parents: 230 diff changeset	2223 printf("\tfnstsw\t%%ax\n");
c575422d8b6e * empty log message * kono parents: 230 diff changeset	2224 printf("\tandb\t$69,%%ah\n");
c575422d8b6e * empty log message * kono parents: 230 diff changeset	2225 printf("\txorb\t$64,%%ah\n");
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2226 }
81 f94ca1168520 float first try... kono parents: 78 diff changeset	2227
97 6d42fcac07af * empty log message * kono parents: 96 diff changeset	2228 int pop_fregister()
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2229 {
94 1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2230 if (freg_sp<0) { error(-1); return -1;}
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2231 printf("# fpop: %d\n",freg_sp-1);
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2232 return freg_stack[--freg_sp];
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2233 }
81 f94ca1168520 float first try... kono parents: 78 diff changeset	2234
94 1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2235 int
138 e6e77af048a1 float/dobule configuration kono parents: 137 diff changeset	2236 emit_dpop(int d)
94 1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2237 {
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2238 int xreg;
97 6d42fcac07af * empty log message * kono parents: 96 diff changeset	2239 if ((xreg=pop_fregister())==-1) {
94 1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2240 } else if (xreg<= -REG_LVAR_OFFSET) {
119 b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	2241 code_drlvar(REG_LVAR_OFFSET+xreg,1,freg);
117 2d5a203cc3a6 lvar reuse kono parents: 116 diff changeset	2242 free_lvar(xreg+REG_LVAR_OFFSET);
94 1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2243 /* pushed order is reversed. We don't need this for comutable
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2244 operator, but it is ok to do this. */
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2245 printf("\tfxch\t%%st(1)\n");
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2246 }
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2247 return xreg;
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2248 }
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2249
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2250
138 e6e77af048a1 float/dobule configuration kono parents: 137 diff changeset	2251 void emit_dpop_free(int e1,int d)
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2252 {
25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2253 }
81 f94ca1168520 float first try... kono parents: 78 diff changeset	2254
133 7d436c08e949 separate float / double flow kono parents: 128 diff changeset	2255 void emit_dpush(int type)
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2256 {
119 b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	2257 if (freg_sp>=MAX_FPU_STACK) code_save_fstacks();
94 1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2258 if (freg_sp>MAX_MAX) error(-1);
107 06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	2259 freg_stack[freg_sp++]=-1;
94 1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2260 printf("# fpush:%d\n",freg_sp);
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2261 }
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2262
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2263 #endif
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2264
94 1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2265 void
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2266 code_save_stacks()
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2267 {
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2268 /* temporal registers or stacks in fpu are saved in local variable */
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2269 int xreg,sp,screg;
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2270 sp=reg_sp;
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2271 while(sp-->0) {
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2272 if ((xreg=reg_stack[sp])>=0) {
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2273 screg=creg;
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2274 if(creg!=xreg) {
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2275 if (xreg!=dreg) free_register(xreg);
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2276 creg = xreg;
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2277 }
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2278 code_assign_lvar(
119 b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	2279 (reg_stack[sp]=new_lvar(size_of_int)),creg,0);
94 1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2280 reg_stack[sp]= reg_stack[sp]-REG_LVAR_OFFSET;
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2281 regv[xreg]=0;
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2282 creg=screg;
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2283 }
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2284 }
107 06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	2285 }
06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	2286
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2287 #if FLOAT_CODE
107 06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	2288 void
06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	2289 code_save_fstacks()
06f72222d6b5 prevent destorying function argument (incomeplete) kono parents: 105 diff changeset	2290 {
127 eb4d8975926c Intel float fix kono parents: 126 diff changeset	2291 int xreg,sp,uses;
eb4d8975926c Intel float fix kono parents: 126 diff changeset	2292 uses = use; use = 0;
94 1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2293 sp=freg_sp;
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2294 while(sp-->0) {
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2295 if ((xreg=freg_stack[sp])==-1) {
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2296 code_dassign_lvar(
119 b815fcd57b9d input var ( incomplete ) kono parents: 118 diff changeset	2297 (freg_stack[sp]=new_lvar(size_of_double)),freg,1);
94 1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2298 freg_stack[sp]= freg_stack[sp]-REG_LVAR_OFFSET;
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2299 }
1ad7045741a7 float dbinop fix kono parents: 93 diff changeset	2300 }
127 eb4d8975926c Intel float fix kono parents: 126 diff changeset	2301 use = uses;
82 25654dc29ecc First Floating Point coding done. kono parents: 81 diff changeset	2302 }
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2303 #endif
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2304
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2305
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2306
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2307 #if LONGLONG_CODE
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2308
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2309
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2310 /* 64bit int part */
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2311
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2312 static void
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2313 pcond(char *s,int l1)
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2314 {
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2315 printf("\tj%s\t_%d\n",s,l1);
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2316 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2317
240 b59364f5b030 * empty log message * kono parents: 239 diff changeset	2318 void
b59364f5b030 * empty log message * kono parents: 239 diff changeset	2319 lrexpr(int e1, int e2,int l1, int op,int cond)
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2320 {
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2321 int e3;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2322 g_expr(e1);
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2323 emit_lpush();
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2324 g_expr(e2);
240 b59364f5b030 * empty log message * kono parents: 239 diff changeset	2325 ltosop(LSUB,USE_CREG,(e3==emit_lpop()));
242 c68f618b71f9 ia32 long long done. some error remains. kono parents: 241 diff changeset	2326 // printf("\tpopl %%eax\n\tpopl %%edx\n"); // emit_pop_free
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2327 switch(op) {
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2328 case LOP+GT:
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2329 pcond(code_gt(cond),l1); break;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2330 case LOP+GE:
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2331 pcond(code_ge(cond),l1); break;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2332 case LOP+EQ:
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2333 pcond(code_eq(cond),l1); break;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2334 case LOP+NEQ:
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2335 pcond(code_eq(!cond),l1); break;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2336 case LOP+LT:
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2337 pcond(code_ge(!cond),l1); break;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2338 case LOP+LE:
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2339 pcond(code_gt(!cond),l1); break;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2340 case LOP+UGT:
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2341 pcond(code_ugt(cond),l1); break;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2342 case LOP+UGE:
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2343 pcond(code_uge(cond),l1); break;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2344 default:
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2345 error(-1);
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2346 }
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2347 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2348
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2349 int emit_lpop()
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2350 {
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2351 return 0;
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2352 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2353
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2354 void code_lregister(int e2,int reg)
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2355 {
238 d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	2356 use_longlong(reg);
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2357 if (reg!=REG_L) {
240 b59364f5b030 * empty log message * kono parents: 239 diff changeset	2358 printf("\tmovl %%esi,%s\n",l_eax(reg));
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2359 printf("\tmovl %%edi,%s\n",l_edx(reg));
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2360 }
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2361 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2362
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2363 void code_cmp_lregister(int reg)
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2364 {
238 d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	2365 char *crn;
d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	2366 use_int(reg);
d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	2367 crn = register_name(reg,0);
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2368 printf("\tmovl %%esi,%s\n",crn);
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2369 printf("\torl %%edi,%s\n",crn);
238 d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	2370 printf("\ttestl %s,%s\n",crn,crn);
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2371 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2372
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2373 void code_cmp_lrgvar(int e1,int e2)
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2374 {
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2375 char n,crn;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2376 n = ((NMTBL*)cadr(e1))->nm;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2377 use_int(e2);
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2378 crn = register_name(e2,0);
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2379 printf("\tmovl %s,%s\n",n,crn);
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2380 printf("\torl %s+4,%s\n",n,crn);
238 d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	2381 printf("\ttestl %s,%s\n",crn,crn);
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2382 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2383
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2384 void code_cmp_lrlvar(int e1,int e2)
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2385 {
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2386 char *crn;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2387 use_int(e2);
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2388 crn = register_name(e2,0);
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2389 printf("\tmovl %d(%%ebp),%s\n",lvar(e1),crn);
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2390 printf("\torl %d(%%ebp),%s\n",lvar(e1)+4,crn);
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2391 printf("\ttestl %s,%s\n",crn,crn);
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2392 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2393
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2394 void code_lassign(int e1,int e2)
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2395 {
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2396 char *rn;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2397 // e1 = e2
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2398 use_longlong(e2);
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2399 rn = register_name(e1,0);
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2400 printf("\tmovl %s,(%s)\n",l_eax(e2),rn);
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2401 printf("\tmovl %s,4(%s)\n",l_edx(e2),rn);
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2402 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2403
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2404 void code_lassign_gvar(int e1,int e2)
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2405 {
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2406 char *n;
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2407 n = ((NMTBL*)cadr(e1))->nm;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2408 use_longlong(e2);
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2409 printf("\tmovl %s,%s\n",l_eax(e2),n);
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2410 printf("\tmovl %s,%s+4\n",l_edx(e2),n);
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2411 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2412
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2413 void code_lassign_lvar(int e1,int e2)
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2414 {
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2415 use_longlong(e2);
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2416 printf("\tmovl %s,%d(%%ebp)\n",l_eax(e2),lvar(e1));
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2417 printf("\tmovl %s,%d(%%ebp)\n",l_edx(e2),lvar(e1)+4);
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2418 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2419
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2420 void code_lassign_lregister(int e2,int reg)
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2421 {
242 c68f618b71f9 ia32 long long done. some error remains. kono parents: 241 diff changeset	2422 // e2 = reg
238 d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	2423 use_longlong(reg);
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2424 if (e2!=reg) {
242 c68f618b71f9 ia32 long long done. some error remains. kono parents: 241 diff changeset	2425 printf("\tmovl %s,%s\n",l_eax(reg),l_eax(e2));
c68f618b71f9 ia32 long long done. some error remains. kono parents: 241 diff changeset	2426 printf("\tmovl %s,%s\n",l_edx(reg),l_edx(e2));
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2427 }
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2428 }
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2429
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2430 void
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2431 code_lconst(int e1,int creg)
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2432 {
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2433 use_longlong(creg);
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2434 printf("\tmovl $%d,%s\n",code_l1(lcadr(e1)),l_eax(creg));
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2435 printf("\tmovl $%d,%s\n",code_l2(lcadr(e1)),l_edx(creg));
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2436 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2437
212 32f54ab63b35 * empty log message * kono parents: 205 diff changeset	2438 void code_lneg(int e1)
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2439 {
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2440 use_longlong(e1);
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2441 printf("\tnegl %s\n",l_eax(e1));
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2442 printf("\tadcl $0,%s\n",l_edx(e1));
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2443 printf("\tnegl %s\n",l_edx(e1));
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2444 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2445
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2446 void code_lrgvar(int e1,int e2)
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2447 {
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2448 char *n;
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2449 n = ((NMTBL*)cadr(e1))->nm;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2450 use_longlong(e2);
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2451 printf("\tmovl %s,%s\n",n,l_eax(e2));
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2452 printf("\tmovl %s+4,%s\n",n,l_edx(e2));
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2453 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2454
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2455 void code_lrlvar(int e1,int e2)
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2456 {
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2457 use_longlong(e2);
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2458 printf("\tmovl %d(%%ebp),%s\n",lvar(e1),l_eax(e2));
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2459 printf("\tmovl %d(%%ebp),%s\n",lvar(e1)+4,l_edx(e2));
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2460 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2461
242 c68f618b71f9 ia32 long long done. some error remains. kono parents: 241 diff changeset	2462 #define check_lreg(reg) if (reg==REG_L) code_lassign_lregister(reg,REG_LCREG)
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2463
240 b59364f5b030 * empty log message * kono parents: 239 diff changeset	2464 void
b59364f5b030 * empty log message * kono parents: 239 diff changeset	2465 ltosop(int op,int reg,int e2)
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2466 {
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2467 char opl,oph,*call;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2468 int lb;
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2469
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2470 // e2 (operand) is on the top of the stack
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2471 use_longlong(reg);
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2472 opl = 0; call=0;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2473
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2474 switch(op) {
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2475 case LLSHIFT:
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2476 case LULSHIFT:
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2477 printf("\tmovl %%ecx,4(%%esp)\n");
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2478 printf("\tpopl %%ecx\n");
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2479 printf("\tshldl %%eax,%%edx\n");
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2480 printf("\tsall %%cl,%%eax\n");
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2481 printf("\ttestb $32,%%cl\n");
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2482 printf("\tje\t_%d\n",(lb=fwdlabel()));
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2483 printf("\tmovl %%eax,%%edx\n");
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2484 printf("\txorl %%eax,%%eax\n");
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2485 fwddef(lb);
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2486 printf("\tpopl %%ecx\n");
242 c68f618b71f9 ia32 long long done. some error remains. kono parents: 241 diff changeset	2487 check_lreg(reg);
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2488 return;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2489 case LRSHIFT:
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2490 printf("\tmovl %%ecx,4(%%esp)\n");
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2491 printf("\tpopl %%ecx\n");
240 b59364f5b030 * empty log message * kono parents: 239 diff changeset	2492 printf("\tshrdl %%edx,%%eax\n");
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2493 printf("\tsarl %%cl,%%eax\n");
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2494 printf("\ttestb $32,%%cl\n");
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2495 printf("\tje\t_%d\n",(lb=fwdlabel()));
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2496 printf("\tmovl %%edx,%%eax\n");
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2497 printf("\tsarl $31,%%edx\n");
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2498 fwddef(lb);
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2499 printf("\tpopl %%ecx\n");
242 c68f618b71f9 ia32 long long done. some error remains. kono parents: 241 diff changeset	2500 check_lreg(reg);
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2501 return;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2502 case LURSHIFT:
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2503 printf("\tmovl %%ecx,4(%%esp)\n");
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2504 printf("\tpopl %%ecx\n");
240 b59364f5b030 * empty log message * kono parents: 239 diff changeset	2505 printf("\tshrdl %%edx,%%eax\n");
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2506 printf("\tshrl %%cl,%%eax\n");
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2507 printf("\ttestb $32,%%cl\n");
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2508 printf("\tje\t_%d\n",(lb=fwdlabel()));
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2509 printf("\tmovl %%edx,%%eax\n");
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2510 printf("\txorl %%edx,%%edx\n");
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2511 fwddef(lb);
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2512 printf("\tpopl %%ecx\n");
242 c68f618b71f9 ia32 long long done. some error remains. kono parents: 241 diff changeset	2513 check_lreg(reg);
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2514 return;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2515 }
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2516 switch(op) {
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2517 case LADD: opl="addl";oph="adcl"; break;
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2518 case LSUB: opl="subl";oph="sbbl"; break;
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2519 case LBAND: opl=oph="andl"; break;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2520 case LEOR: opl=oph="xorl"; break;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2521 case LBOR: opl=oph="orl"; break;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2522 case LMUL:
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2523 case LUMUL:
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2524 printf("\tpushl %%edx\n");
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2525 printf("\tpushl %%eax\n");
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2526 printf("\tpushl %%ecx\n");
242 c68f618b71f9 ia32 long long done. some error remains. kono parents: 241 diff changeset	2527 // 0 saved ecx
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2528 // 4 c_l
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2529 // 8 c_h
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2530 // 12 o_l
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2531 // 16 o_h
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2532 printf("\tmull 12(%%esp)\n"); // c_l*o_l -> %edx,%eax
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2533 printf("\tmovl 4(%%esp),%%ecx\n"); // c_l->%ecx
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2534 printf("\timull 16(%%esp),%%ecx\n"); // c_l*o_h->%ecx
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2535 printf("\taddl %%ecx,%%edx\n"); // %edx+%ecx->%edx
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2536 printf("\tmovl 8(%%esp),%%ecx\n"); // c_h->%ecx
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2537 printf("\timull 12(%%esp),%%ecx\n"); // c_h*o_l->%ecx
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2538 printf("\taddl %%ecx,%%edx\n"); // %edx+%ecx->%edx
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2539 printf("\tpopl %%ecx\n");
242 c68f618b71f9 ia32 long long done. some error remains. kono parents: 241 diff changeset	2540 // printf("\taddl $8,%%esp\n");
c68f618b71f9 ia32 long long done. some error remains. kono parents: 241 diff changeset	2541 printf("\tlea 16(%%esp),%%esp\n");
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2542 return;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2543 case LDIV: call="__divdi3"; break;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2544 case LUDIV: call="__udivdi3"; break;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2545 case LMOD: call="__moddi3"; break;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2546 case LUMOD: call="__umoddi3"; break;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2547 default: error(-1);
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2548 }
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2549 if (opl) {
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2550 printf("\t%s (%%esp),%%eax\n\t%s 4(%%esp),%%edx\n",opl,oph);
242 c68f618b71f9 ia32 long long done. some error remains. kono parents: 241 diff changeset	2551 printf("\tlea 8(%%esp),%%esp\n");
c68f618b71f9 ia32 long long done. some error remains. kono parents: 241 diff changeset	2552 check_lreg(reg);
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2553 } else if (call) {
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2554 printf("\tpushl %%edx\n");
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2555 printf("\tpushl %%eax\n");
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2556 printf("\tcall %s\n",call);
242 c68f618b71f9 ia32 long long done. some error remains. kono parents: 241 diff changeset	2557 // printf("\taddl $8,%%esp\n");
c68f618b71f9 ia32 long long done. some error remains. kono parents: 241 diff changeset	2558 printf("\tlea 16(%%esp),%%esp\n");
c68f618b71f9 ia32 long long done. some error remains. kono parents: 241 diff changeset	2559 check_lreg(reg);
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2560 } else {
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2561 error(-1);
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2562 }
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2563 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2564
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2565 int code_lconst_op_p(int op,int e) {
240 b59364f5b030 * empty log message * kono parents: 239 diff changeset	2566 long long l;
b59364f5b030 * empty log message * kono parents: 239 diff changeset	2567 if (car(e)==CONST) l = cadr(e);
b59364f5b030 * empty log message * kono parents: 239 diff changeset	2568 else if (car(e)==LCONST) l = lcadr(e);
b59364f5b030 * empty log message * kono parents: 239 diff changeset	2569 else return 0;
b59364f5b030 * empty log message * kono parents: 239 diff changeset	2570
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2571 switch(op) {
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2572 case LLSHIFT:
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2573 case LULSHIFT:
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2574 case LRSHIFT:
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2575 case LURSHIFT:
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2576 return (0<=l&&l<=32);
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2577 case LADD:
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2578 case LSUB:
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2579 case LBAND:
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2580 case LEOR:
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2581 case LBOR:
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2582 return 1;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2583 default:
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2584 return 0;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2585 }
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2586 }
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2587
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2588 void loprtc(int op,int reg,int e) {
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2589 char opl,oph;
240 b59364f5b030 * empty log message * kono parents: 239 diff changeset	2590 int vl;
b59364f5b030 * empty log message * kono parents: 239 diff changeset	2591 int vh;
b59364f5b030 * empty log message * kono parents: 239 diff changeset	2592 long long l;
b59364f5b030 * empty log message * kono parents: 239 diff changeset	2593
b59364f5b030 * empty log message * kono parents: 239 diff changeset	2594 if (car(e)==CONST) l = cadr(e);
b59364f5b030 * empty log message * kono parents: 239 diff changeset	2595 else if (car(e)==LCONST) l = lcadr(e);
b59364f5b030 * empty log message * kono parents: 239 diff changeset	2596 else error(-1);
b59364f5b030 * empty log message * kono parents: 239 diff changeset	2597
b59364f5b030 * empty log message * kono parents: 239 diff changeset	2598 vl = code_l1(l);
b59364f5b030 * empty log message * kono parents: 239 diff changeset	2599 vh = code_l2(l);
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2600
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2601 use_longlong(reg);
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2602 opl = 0;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2603
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2604 switch(op) {
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2605 case LLSHIFT:
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2606 case LULSHIFT:
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2607 printf("\tshldl $%d,%%eax,%%edx\n",vl);
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2608 printf("\tsall $%d,%%eax\n",vl);
242 c68f618b71f9 ia32 long long done. some error remains. kono parents: 241 diff changeset	2609 check_lreg(reg);
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2610 return;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2611 case LRSHIFT:
242 c68f618b71f9 ia32 long long done. some error remains. kono parents: 241 diff changeset	2612 printf("\tshrdl $%d,%%edx,%%eax\n",vl);
c68f618b71f9 ia32 long long done. some error remains. kono parents: 241 diff changeset	2613 printf("\tsarl $%d,%%edx\n",vl);
c68f618b71f9 ia32 long long done. some error remains. kono parents: 241 diff changeset	2614 check_lreg(reg);
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2615 return;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2616 case LURSHIFT:
242 c68f618b71f9 ia32 long long done. some error remains. kono parents: 241 diff changeset	2617 printf("\tshrdl $%d,%%edx,%%eax\n",vl);
c68f618b71f9 ia32 long long done. some error remains. kono parents: 241 diff changeset	2618 printf("\tshrl $%d,%%edx\n",vl);
c68f618b71f9 ia32 long long done. some error remains. kono parents: 241 diff changeset	2619 check_lreg(reg);
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2620 return;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2621 }
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2622 switch(op) {
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2623 case LADD: opl="addl";oph="adcl"; break;
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2624 case LSUB: opl="subl";oph="sbbl"; break;
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2625 case LBAND: opl=oph="andl"; break;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2626 case LEOR: opl=oph="xorl"; break;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2627 case LBOR: opl=oph="orl"; break;
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2628 default: error(-1);
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2629 }
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2630 printf("\t%s $%d,%%eax\n\t%s $%d,%%edx\n",opl,vl,oph,vh);
242 c68f618b71f9 ia32 long long done. some error remains. kono parents: 241 diff changeset	2631 check_lreg(reg);
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2632 }
213 8581c314e31a obsf kono parents: 212 diff changeset	2633
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2634 void emit_lpop_free(int e1)
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2635 {
242 c68f618b71f9 ia32 long long done. some error remains. kono parents: 241 diff changeset	2636 // printf("\taddl $8,%%esp\n");
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2637 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2638
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2639 void emit_lpush()
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2640 {
241 96b5ee862a41 * empty log message * kono parents: 240 diff changeset	2641 printf("\tpushl %%edx\n\tpushl %%eax\n");
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2642 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2643
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2644 void code_i2ll(int reg)
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2645 {
240 b59364f5b030 * empty log message * kono parents: 239 diff changeset	2646 int reg0 = USE_CREG;
b59364f5b030 * empty log message * kono parents: 239 diff changeset	2647 use_register(creg,REG_EAX,1);
b59364f5b030 * empty log message * kono parents: 239 diff changeset	2648 regv[creg]=0;
b59364f5b030 * empty log message * kono parents: 239 diff changeset	2649 use_longlong(reg0);
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2650 printf("\tcltd\n");
242 c68f618b71f9 ia32 long long done. some error remains. kono parents: 241 diff changeset	2651 check_lreg(reg);
240 b59364f5b030 * empty log message * kono parents: 239 diff changeset	2652 lreg = creg = reg0;
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2653 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2654
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2655 void code_i2ull(int reg)
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2656 {
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2657 code_i2ll(reg);
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2658 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2659
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2660 void code_u2ll(int reg)
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2661 {
240 b59364f5b030 * empty log message * kono parents: 239 diff changeset	2662 int reg0 = USE_CREG;
b59364f5b030 * empty log message * kono parents: 239 diff changeset	2663 use_register(creg,REG_EAX,1);
b59364f5b030 * empty log message * kono parents: 239 diff changeset	2664 regv[creg]=0;
b59364f5b030 * empty log message * kono parents: 239 diff changeset	2665 use_longlong(reg0);
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2666 printf("\txorl %%edx,%%edx\n");
242 c68f618b71f9 ia32 long long done. some error remains. kono parents: 241 diff changeset	2667 check_lreg(reg);
240 b59364f5b030 * empty log message * kono parents: 239 diff changeset	2668 lreg = creg = reg0;
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2669 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2670
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2671 void code_u2ull(int reg)
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2672 {
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2673 code_u2ll(reg);
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2674 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2675
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2676 void code_ll2i(int reg)
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2677 {
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2678 use_int(reg);
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2679 if (virtual(REG_EAX)!=reg)
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2680 printf("\tmovl %%eax,%s\n",register_name(creg,0));
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2681 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2682
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2683 void code_ll2u(int reg)
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2684 {
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2685 code_ll2i(reg);
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2686 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2687
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2688 void code_ull2i(int reg)
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2689 {
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2690 code_ll2i(reg);
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2691 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2692
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2693 void code_ull2u(int reg)
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2694 {
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2695 code_ll2i(reg);
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2696 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2697
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2698 #if FLOAT_CODE
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2699 void code_d2ll(int reg)
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2700 {
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2701 use_longlong(reg);
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2702 printf("\tsubl $40,%%esp\n");
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2703 printf("\tfnstcw 2(%%esp)\n");
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2704 printf("\tmovw 2(%%esp),%%ax\n");
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2705 printf("\torw $3072,%%ax\n");
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2706 printf("\tmovw %%ax,0(%%esp)\n");
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2707 printf("\tfldcw 0(%%esp)\n");
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2708 printf("\tfistpll 12(%%esp)\n");
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2709 printf("\tfldcw 2(%%esp)\n");
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2710 printf("\tmovl 12(%%esp),%%eax\n");
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2711 printf("\tmovl 16(%%esp),%%edx\n");
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2712 printf("\taddl $40,%%esp\n");
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2713 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2714
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2715 void code_d2ull(int reg)
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2716 {
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2717 use_longlong(reg);
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2718 printf("\tsubl $16,%%esp\n");
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2719 printf("\tfstpl (%%esp)\n");
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2720 printf("\tcall __fixunsdfdi\n");
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2721 printf("\taddl $16,%%esp\n");
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2722 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2723
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2724 void code_f2ll(int reg)
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2725 {
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2726 code_d2ll(reg);
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2727 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2728
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2729 void code_f2ull(int reg)
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2730 {
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2731 use_longlong(reg);
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2732 printf("\tsubl $16,%%esp\n");
242 c68f618b71f9 ia32 long long done. some error remains. kono parents: 241 diff changeset	2733 printf("\tfstps (%%esp)\n");
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2734 printf("\tcall __fixunssfdi\n");
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2735 printf("\taddl $16,%%esp\n");
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2736 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2737
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2738 void code_ll2d(int reg)
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2739 {
237 1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2740 printf("\tsubl $8,%%esp\n");
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2741 printf("\tmovl %%eax,(%%esp)\n");
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2742 printf("\tmovl %%edx,4(%%esp)\n");
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2743 printf("\tfildll (%%esp)\n");
1933266f1efa long long ia32 (imcomplete) kono parents: 236 diff changeset	2744 printf("\taddl $8,%%esp\n");
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2745 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2746
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2747 void code_ll2f(int reg)
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2748 {
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2749 code_ll2d(reg);
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2750 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2751
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2752 void code_ull2d(int reg)
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2753 {
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2754 code_ll2d(reg);
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2755 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2756
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2757 void code_ull2f(int reg)
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2758 {
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2759 code_ll2d(reg);
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2760 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2761
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2762 #endif
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2763
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2764
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2765 void code_lpreinc(int e1,int e2,int reg)
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2766 {
238 d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	2767 int dir = caddr(e1);
d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	2768 int creg0;
d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	2769 char *crn;
d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	2770 if (car(e2)==LREGISTER) {
d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	2771 use_longlong(reg);
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2772 printf("\taddl $%d,%%esi\n",dir);
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2773 printf("\tadcl $%d,%%edi\n",dir>0?0:-1);
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2774 if (reg!=REG_L) {
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2775 code_lregister(REG_L,reg);
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2776 }
238 d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	2777 return;
d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	2778 }
d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	2779 g_expr(e2);
d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	2780 crn = register_name(creg0=creg,0);
d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	2781 printf("\taddl $%d,(%s)\n",dir,crn);
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2782 printf("\tadcl $%d,4(%s)\n",dir>0?0:-1,crn);
238 d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	2783 use_longlong(reg);
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2784 lload(creg0,0,reg);
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2785 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2786
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2787 void code_lpostinc(int e1,int e2,int reg)
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2788 {
238 d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	2789 int dir = caddr(e1);
d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	2790 int creg0;
d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	2791 char *crn;
d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	2792 if (car(e2)==LREGISTER) {
d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	2793 use_longlong(reg);
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2794 if (reg!=REG_L) {
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2795 code_lregister(REG_L,reg);
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2796 }
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2797 printf("\taddl $%d,%%esi\n",dir);
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2798 printf("\tadcl $%d,%%edi\n",dir>0?0:-1);
238 d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	2799 return;
d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	2800 }
d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	2801 g_expr(e2);
d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	2802 crn = register_name(creg0=creg,0);
d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	2803 printf("\taddl $%d,(%s)\n",dir,crn);
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2804 printf("\tadcl $%d,4(%s)\n",dir>0?0:-1,crn);
238 d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	2805 use_longlong(reg);
239 1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2806 lload(creg0,0,reg);
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2807 printf("\taddl $%d,%s\n",-dir,l_eax(reg));
1849e0079f08 ia32 long long continue kono parents: 238 diff changeset	2808 printf("\tadcl $%d,%s\n",-dir>0?0:-1,l_edx(reg));
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2809 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2810
225 8675ea3d2c7f * empty log message * kono parents: 224 diff changeset	2811 void code_lassop(int op,int reg)
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2812 {
238 d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	2813 error(-1);
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2814 }
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2815
219 6190d24e178c long long code generation level 4 kono parents: 213 diff changeset	2816 void
6190d24e178c long long code generation level 4 kono parents: 213 diff changeset	2817 code_register_lassop(int reg,int op) {
238 d64e9a6a66bd ia32 long long code written. kono parents: 237 diff changeset	2818 error(-1);
219 6190d24e178c long long code generation level 4 kono parents: 213 diff changeset	2819 }
6190d24e178c long long code generation level 4 kono parents: 213 diff changeset	2820
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2821
c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2822 #endif
81 f94ca1168520 float first try... kono parents: 78 diff changeset	2823
61 8ffb8ca3fe34 separation of architecture dependent part. kono parents: diff changeset	2824 /* end */
195 c193120ee2a6 * empty log message * kono parents: 190 diff changeset	2825

Mercurial > hg > CbC > old > device

annotate mc-code-ia32.c @ 243:c311c26e006a