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Refactor RPN binary expressions into a single func

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This mirrors what the constexpr evaluator is doing, and removes a lot of code shared
between all of them
This commit is contained in:
ISSOtm
2020-01-20 13:22:14 +01:00
parent 9ed6e9af65
commit 0a04904b75
3 changed files with 195 additions and 330 deletions
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39
include/asm/rpn.h
View File

@@ -11,6 +11,8 @@
#include <stdint.h>
#include "linkdefs.h"
#define MAXRPNLEN 1048576
struct Expression {
@@ -30,41 +32,8 @@ uint32_t rpn_isReloc(const struct Expression *expr);
void rpn_Symbol(struct Expression *expr, char *tzSym);
void rpn_Number(struct Expression *expr, uint32_t i);
void rpn_LOGNOT(struct Expression *expr, const struct Expression *src);
void rpn_LOGOR(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2);
void rpn_LOGAND(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2);
void rpn_LOGEQU(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2);
void rpn_LOGGT(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2);
void rpn_LOGLT(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2);
void rpn_LOGGE(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2);
void rpn_LOGLE(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2);
void rpn_LOGNE(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2);
void rpn_ADD(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2);
void rpn_SUB(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2);
void rpn_XOR(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2);
void rpn_OR(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2);
void rpn_AND(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2);
void rpn_SHL(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2);
void rpn_SHR(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2);
void rpn_MUL(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2);
void rpn_DIV(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2);
void rpn_MOD(struct Expression *expr, const struct Expression *src1,
void rpn_BinaryOp(enum RPNCommand op, struct Expression *expr,
const struct Expression *src1,
const struct Expression *src2);
void rpn_HIGH(struct Expression *expr, const struct Expression *src);
void rpn_LOW(struct Expression *expr, const struct Expression *src);

36
src/asm/asmy.y
View File

@@ -1223,24 +1223,24 @@ relocconst : T_ID
rpn_Number(&$$, r);
}
| T_OP_LOGICNOT relocconst %prec NEG { rpn_LOGNOT(&$$, &$2); }
| relocconst T_OP_LOGICOR relocconst { rpn_LOGOR(&$$, &$1, &$3); }
| relocconst T_OP_LOGICAND relocconst { rpn_LOGAND(&$$, &$1, &$3); }
| relocconst T_OP_LOGICEQU relocconst { rpn_LOGEQU(&$$, &$1, &$3); }
| relocconst T_OP_LOGICGT relocconst { rpn_LOGGT(&$$, &$1, &$3); }
| relocconst T_OP_LOGICLT relocconst { rpn_LOGLT(&$$, &$1, &$3); }
| relocconst T_OP_LOGICGE relocconst { rpn_LOGGE(&$$, &$1, &$3); }
| relocconst T_OP_LOGICLE relocconst { rpn_LOGLE(&$$, &$1, &$3); }
| relocconst T_OP_LOGICNE relocconst { rpn_LOGNE(&$$, &$1, &$3); }
| relocconst T_OP_ADD relocconst { rpn_ADD(&$$, &$1, &$3); }
| relocconst T_OP_SUB relocconst { rpn_SUB(&$$, &$1, &$3); }
| relocconst T_OP_XOR relocconst { rpn_XOR(&$$, &$1, &$3); }
| relocconst T_OP_OR relocconst { rpn_OR(&$$, &$1, &$3); }
| relocconst T_OP_AND relocconst { rpn_AND(&$$, &$1, &$3); }
| relocconst T_OP_SHL relocconst { rpn_SHL(&$$, &$1, &$3); }
| relocconst T_OP_SHR relocconst { rpn_SHR(&$$, &$1, &$3); }
| relocconst T_OP_MUL relocconst { rpn_MUL(&$$, &$1, &$3); }
| relocconst T_OP_DIV relocconst { rpn_DIV(&$$, &$1, &$3); }
| relocconst T_OP_MOD relocconst { rpn_MOD(&$$, &$1, &$3); }
| relocconst T_OP_LOGICOR relocconst { rpn_BinaryOp(RPN_LOGOR, &$$, &$1, &$3); }
| relocconst T_OP_LOGICAND relocconst { rpn_BinaryOp(RPN_LOGAND, &$$, &$1, &$3); }
| relocconst T_OP_LOGICEQU relocconst { rpn_BinaryOp(RPN_LOGEQ, &$$, &$1, &$3); }
| relocconst T_OP_LOGICGT relocconst { rpn_BinaryOp(RPN_LOGGT, &$$, &$1, &$3); }
| relocconst T_OP_LOGICLT relocconst { rpn_BinaryOp(RPN_LOGLT, &$$, &$1, &$3); }
| relocconst T_OP_LOGICGE relocconst { rpn_BinaryOp(RPN_LOGGE, &$$, &$1, &$3); }
| relocconst T_OP_LOGICLE relocconst { rpn_BinaryOp(RPN_LOGLE, &$$, &$1, &$3); }
| relocconst T_OP_LOGICNE relocconst { rpn_BinaryOp(RPN_LOGNE, &$$, &$1, &$3); }
| relocconst T_OP_ADD relocconst { rpn_BinaryOp(RPN_ADD, &$$, &$1, &$3); }
| relocconst T_OP_SUB relocconst { rpn_BinaryOp(RPN_SUB, &$$, &$1, &$3); }
| relocconst T_OP_XOR relocconst { rpn_BinaryOp(RPN_XOR, &$$, &$1, &$3); }
| relocconst T_OP_OR relocconst { rpn_BinaryOp(RPN_OR, &$$, &$1, &$3); }
| relocconst T_OP_AND relocconst { rpn_BinaryOp(RPN_AND, &$$, &$1, &$3); }
| relocconst T_OP_SHL relocconst { rpn_BinaryOp(RPN_SHL, &$$, &$1, &$3); }
| relocconst T_OP_SHR relocconst { rpn_BinaryOp(RPN_SHR, &$$, &$1, &$3); }
| relocconst T_OP_MUL relocconst { rpn_BinaryOp(RPN_MUL, &$$, &$1, &$3); }
| relocconst T_OP_DIV relocconst { rpn_BinaryOp(RPN_DIV, &$$, &$1, &$3); }
| relocconst T_OP_MOD relocconst { rpn_BinaryOp(RPN_MOD, &$$, &$1, &$3); }
| T_OP_ADD relocconst %prec NEG { $$ = $2; }
| T_OP_SUB relocconst %prec NEG { rpn_UNNEG(&$$, &$2); }
| T_OP_NOT relocconst %prec NEG { rpn_UNNOT(&$$, &$2); }

448
src/asm/rpn.c
View File

@@ -22,46 +22,6 @@
#include "asm/output.h"
#include "asm/warning.h"
#include "linkdefs.h"
void mergetwoexpressions(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2)
{
assert(src1->tRPN != NULL && src2->tRPN != NULL);
if (src1->nRPNLength + src2->nRPNLength > MAXRPNLEN)
fatalerror("RPN expression is too large");
uint32_t len = src1->nRPNLength + src2->nRPNLength;
expr->nVal = 0;
expr->tRPN = src1->tRPN;
if (src1->nRPNCapacity >= len) {
expr->nRPNCapacity = src1->nRPNCapacity;
} else {
uint32_t cap1 = src1->nRPNCapacity;
uint32_t cap2 = src2->nRPNCapacity;
uint32_t cap = (cap1 > cap2) ? cap1 : cap2;
if (len > cap)
cap = (cap <= MAXRPNLEN / 2) ? cap * 2 : MAXRPNLEN;
expr->nRPNCapacity = cap;
expr->tRPN = realloc(expr->tRPN, expr->nRPNCapacity);
if (expr->tRPN == NULL)
fatalerror("No memory for RPN expression");
}
memcpy(expr->tRPN + src1->nRPNLength, src2->tRPN, src2->nRPNLength);
free(src2->tRPN);
expr->nRPNLength = len;
expr->nRPNPatchSize = src1->nRPNPatchSize + src2->nRPNPatchSize;
expr->nRPNOut = 0;
expr->isReloc = src1->isReloc || src2->isReloc;
}
/*
* Add a byte to the RPN expression
*/
@@ -160,7 +120,7 @@ void rpn_Symbol(struct Expression *expr, char *tzSym)
struct Expression pc = *expr, offset;
rpn_Number(&offset, nPCOffset);
rpn_SUB(expr, &pc, &offset);
rpn_BinaryOp(RPN_SUB, expr, &pc, &offset);
}
} else {
rpn_Number(expr, sym_GetConstantValue(tzSym));
@@ -265,21 +225,181 @@ void rpn_LOGNOT(struct Expression *expr, const struct Expression *src)
expr->nRPNPatchSize++;
}
void rpn_LOGOR(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2)
static int32_t shift(int32_t shiftee, int32_t amount)
{
mergetwoexpressions(expr, src1, src2);
expr->nVal = (src1->nVal || src2->nVal);
pushbyte(expr, RPN_LOGOR);
expr->nRPNPatchSize++;
if (shiftee < 0)
warning(WARNING_SHIFT, "Shifting negative value %d", shiftee);
if (amount >= 0) {
// Left shift
if (amount >= 32) {
warning(WARNING_SHIFT_AMOUNT, "Shifting left by large amount %d",
amount);
return 0;
} else {
/*
* Use unsigned to force a bitwise shift
* Casting back is OK because the types implement two's
* complement behavior
*/
return (uint32_t)shiftee << amount;
}
} else {
// Right shift
amount = -amount;
if (amount >= 32) {
warning(WARNING_SHIFT_AMOUNT, "Shifting right by large amount %d",
amount);
return shiftee < 0 ? -1 : 0;
} else if (shiftee >= 0) {
return shiftee >> amount;
} else {
/*
* The C standard leaves shifting right negative values
* undefined, so use a left shift manually sign-extended
*/
return (uint32_t)shiftee >> amount
| -((uint32_t)1 << (32 - amount));
}
}
}
void rpn_LOGAND(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2)
void rpn_BinaryOp(enum RPNCommand op, struct Expression *expr,
const struct Expression *src1, const struct Expression *src2)
{
mergetwoexpressions(expr, src1, src2);
expr->nVal = (src1->nVal && src2->nVal);
pushbyte(expr, RPN_LOGAND);
assert(src1->tRPN != NULL && src2->tRPN != NULL);
if (src1->nRPNLength + src2->nRPNLength > MAXRPNLEN)
fatalerror("RPN expression is too large");
uint32_t len = src1->nRPNLength + src2->nRPNLength;
expr->nVal = 0;
expr->tRPN = src1->tRPN;
if (src1->nRPNCapacity >= len) {
expr->nRPNCapacity = src1->nRPNCapacity;
} else {
uint32_t cap1 = src1->nRPNCapacity;
uint32_t cap2 = src2->nRPNCapacity;
uint32_t cap = (cap1 > cap2) ? cap1 : cap2;
if (len > cap)
cap = (cap <= MAXRPNLEN / 2) ? cap * 2 : MAXRPNLEN;
expr->nRPNCapacity = cap;
expr->tRPN = realloc(expr->tRPN, expr->nRPNCapacity);
if (expr->tRPN == NULL)
fatalerror("No memory for RPN expression");
}
memcpy(expr->tRPN + src1->nRPNLength, src2->tRPN, src2->nRPNLength);
free(src2->tRPN);
expr->nRPNLength = len;
expr->nRPNPatchSize = src1->nRPNPatchSize + src2->nRPNPatchSize;
expr->nRPNOut = 0;
expr->isReloc = src1->isReloc || src2->isReloc;
switch (op) {
case RPN_LOGOR:
expr->nVal = src1->nVal || src2->nVal;
break;
case RPN_LOGAND:
expr->nVal = src1->nVal && src2->nVal;
break;
case RPN_LOGEQ:
expr->nVal = src1->nVal == src2->nVal;
break;
case RPN_LOGGT:
expr->nVal = src1->nVal > src2->nVal;
break;
case RPN_LOGLT:
expr->nVal = src1->nVal < src2->nVal;
break;
case RPN_LOGGE:
expr->nVal = src1->nVal >= src2->nVal;
break;
case RPN_LOGLE:
expr->nVal = src1->nVal <= src2->nVal;
break;
case RPN_LOGNE:
expr->nVal = src1->nVal != src2->nVal;
break;
case RPN_ADD:
expr->nVal = (uint32_t)src1->nVal + (uint32_t)src2->nVal;
break;
case RPN_SUB:
expr->nVal = (uint32_t)src1->nVal - (uint32_t)src2->nVal;
break;
case RPN_XOR:
expr->nVal = src1->nVal ^ src2->nVal;
break;
case RPN_OR:
expr->nVal = src1->nVal | src2->nVal;
break;
case RPN_AND:
expr->nVal = src1->nVal & src2->nVal;
break;
case RPN_SHL:
if (src2->nVal < 0)
warning(WARNING_SHIFT_AMOUNT, "Shifting left by negative value: %d",
src2->nVal);
expr->nVal = shift(src1->nVal, src2->nVal);
break;
case RPN_SHR:
if (src2->nVal < 0)
warning(WARNING_SHIFT_AMOUNT, "Shifting right by negative value: %d",
src2->nVal);
expr->nVal = shift(src1->nVal, -src2->nVal);
break;
case RPN_MUL:
expr->nVal = (uint32_t)src1->nVal * (uint32_t)src2->nVal;
break;
case RPN_DIV:
if (!expr->isReloc) {
if (src2->nVal == 0)
fatalerror("Division by zero");
if (src1->nVal == INT32_MIN && src2->nVal == -1) {
warning(WARNING_DIV, "Division of min value by -1");
expr->nVal = INT32_MIN;
} else {
expr->nVal = src1->nVal / src2->nVal;
}
}
break;
case RPN_MOD:
if (!expr->isReloc) {
if (src2->nVal == 0)
fatalerror("Division by zero");
if (src1->nVal == INT32_MIN && src2->nVal == -1)
expr->nVal = 0;
else
expr->nVal = src1->nVal % src2->nVal;
}
break;
case RPN_UNSUB:
case RPN_UNNOT:
case RPN_LOGUNNOT:
case RPN_BANK_SYM:
case RPN_BANK_SECT:
case RPN_BANK_SELF:
case RPN_HRAM:
case RPN_RST:
case RPN_CONST:
case RPN_SYM:
fatalerror("%d is no binary operator", op);
}
pushbyte(expr, op);
expr->nRPNPatchSize++;
}
@@ -325,230 +445,6 @@ void rpn_LOW(struct Expression *expr, const struct Expression *src)
expr->nRPNPatchSize += 6;
}
void rpn_LOGEQU(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2)
{
mergetwoexpressions(expr, src1, src2);
expr->nVal = (src1->nVal == src2->nVal);
pushbyte(expr, RPN_LOGEQ);
expr->nRPNPatchSize++;
}
void rpn_LOGGT(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2)
{
mergetwoexpressions(expr, src1, src2);
expr->nVal = (src1->nVal > src2->nVal);
pushbyte(expr, RPN_LOGGT);
expr->nRPNPatchSize++;
}
void rpn_LOGLT(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2)
{
mergetwoexpressions(expr, src1, src2);
expr->nVal = (src1->nVal < src2->nVal);
pushbyte(expr, RPN_LOGLT);
expr->nRPNPatchSize++;
}
void rpn_LOGGE(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2)
{
mergetwoexpressions(expr, src1, src2);
expr->nVal = (src1->nVal >= src2->nVal);
pushbyte(expr, RPN_LOGGE);
expr->nRPNPatchSize++;
}
void rpn_LOGLE(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2)
{
mergetwoexpressions(expr, src1, src2);
expr->nVal = (src1->nVal <= src2->nVal);
pushbyte(expr, RPN_LOGLE);
expr->nRPNPatchSize++;
}
void rpn_LOGNE(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2)
{
mergetwoexpressions(expr, src1, src2);
expr->nVal = (src1->nVal != src2->nVal);
pushbyte(expr, RPN_LOGNE);
expr->nRPNPatchSize++;
}
void rpn_ADD(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2)
{
mergetwoexpressions(expr, src1, src2);
expr->nVal = ((uint32_t)src1->nVal + (uint32_t)src2->nVal);
pushbyte(expr, RPN_ADD);
expr->nRPNPatchSize++;
}
void rpn_SUB(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2)
{
mergetwoexpressions(expr, src1, src2);
expr->nVal = ((uint32_t)src1->nVal - (uint32_t)src2->nVal);
pushbyte(expr, RPN_SUB);
expr->nRPNPatchSize++;
}
void rpn_XOR(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2)
{
mergetwoexpressions(expr, src1, src2);
expr->nVal = (src1->nVal ^ src2->nVal);
pushbyte(expr, RPN_XOR);
expr->nRPNPatchSize++;
}
void rpn_OR(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2)
{
mergetwoexpressions(expr, src1, src2);
expr->nVal = (src1->nVal | src2->nVal);
pushbyte(expr, RPN_OR);
expr->nRPNPatchSize++;
}
void rpn_AND(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2)
{
mergetwoexpressions(expr, src1, src2);
expr->nVal = (src1->nVal & src2->nVal);
pushbyte(expr, RPN_AND);
expr->nRPNPatchSize++;
}
static int32_t shift(int32_t shiftee, int32_t amount)
{
if (shiftee < 0)
warning(WARNING_SHIFT, "Shifting negative value %d", shiftee);
if (amount >= 0) {
// Left shift
if (amount >= 32) {
warning(WARNING_SHIFT_AMOUNT, "Shifting left by large amount %d",
amount);
return 0;
} else {
/*
* Use unsigned to force a bitwise shift
* Casting back is OK because the types implement two's
* complement behavior
*/
return (uint32_t)shiftee << amount;
}
} else {
// Right shift
amount = -amount;
if (amount >= 32) {
warning(WARNING_SHIFT_AMOUNT, "Shifting right by large amount %d",
amount);
return shiftee < 0 ? -1 : 0;
} else if (shiftee >= 0) {
return shiftee >> amount;
} else {
/*
* The C standard leaves shifting right negative values
* undefined, so use a left shift manually sign-extended
*/
return (uint32_t)shiftee >> amount
| -((uint32_t)1 << (32 - amount));
}
}
}
void rpn_SHL(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2)
{
mergetwoexpressions(expr, src1, src2);
if (!expr->isReloc) {
if (src2->nVal < 0)
warning(WARNING_SHIFT_AMOUNT, "Shifting left by negative value: %d",
src2->nVal);
expr->nVal = shift(src1->nVal, src2->nVal);
}
pushbyte(expr, RPN_SHL);
expr->nRPNPatchSize++;
}
void rpn_SHR(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2)
{
mergetwoexpressions(expr, src1, src2);
if (!expr->isReloc) {
if (src2->nVal < 0)
warning(WARNING_SHIFT_AMOUNT, "Shifting right by negative value: %d",
src2->nVal);
expr->nVal = shift(src1->nVal, -src2->nVal);
}
pushbyte(expr, RPN_SHR);
expr->nRPNPatchSize++;
}
void rpn_MUL(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2)
{
mergetwoexpressions(expr, src1, src2);
expr->nVal = ((uint32_t)src1->nVal * (uint32_t)src2->nVal);
pushbyte(expr, RPN_MUL);
expr->nRPNPatchSize++;
}
void rpn_DIV(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2)
{
mergetwoexpressions(expr, src1, src2);
if (!expr->isReloc) {
if (src2->nVal == 0)
fatalerror("Division by zero");
if (src1->nVal == INT32_MIN && src2->nVal == -1) {
warning(WARNING_DIV, "Division of min value by -1");
expr->nVal = INT32_MIN;
} else {
expr->nVal = (src1->nVal / src2->nVal);
}
}
pushbyte(expr, RPN_DIV);
expr->nRPNPatchSize++;
}
void rpn_MOD(struct Expression *expr, const struct Expression *src1,
const struct Expression *src2)
{
mergetwoexpressions(expr, src1, src2);
if (!expr->isReloc) {
if (src2->nVal == 0)
fatalerror("Division by zero");
if (src1->nVal == INT32_MIN && src2->nVal == -1)
expr->nVal = 0;
else
expr->nVal = (src1->nVal % src2->nVal);
}
pushbyte(expr, RPN_MOD);
expr->nRPNPatchSize++;
}
void rpn_UNNEG(struct Expression *expr, const struct Expression *src)
{
*expr = *src;