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chore(build): mark all API functions with calling convention (#69)

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Adam Heinermann 2025-10-05 20:27:01 -07:00 committed by GitHub
parent dc9f9c1958
commit 4fa6599807
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15 changed files with 220 additions and 207 deletions
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58
storm/Big.cpp
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@ -3,15 +3,15 @@
#include "storm/Memory.hpp"
#include <cstring>
void SBigAdd(BigData* a, BigData* b, BigData* c) {
void STORMAPI SBigAdd(BigData* a, BigData* b, BigData* c) {
Add(a->Primary(), b->Primary(), c->Primary());
}
void SBigAnd(BigData* a, BigData* b, BigData* c) {
void STORMAPI SBigAnd(BigData* a, BigData* b, BigData* c) {
And(a->Primary(), b->Primary(), c->Primary());
}
void SBigBitLen(BigData* num, uint32_t* len) {
void STORMAPI SBigBitLen(BigData* num, uint32_t* len) {
auto& buffer = num->Primary();
buffer.Trim();
@ -28,23 +28,23 @@ void SBigBitLen(BigData* num, uint32_t* len) {
*len = (index * 32) + bitIndex + 1;
}
int32_t SBigCompare(BigData* a, BigData* b) {
int32_t STORMAPI SBigCompare(BigData* a, BigData* b) {
return Compare(a->Primary(), b->Primary());
}
void SBigCopy(BigData* a, BigData* b) {
void STORMAPI SBigCopy(BigData* a, BigData* b) {
a->m_primary = b->m_primary;
}
void SBigDec(BigData* a, BigData* b) {
void STORMAPI SBigDec(BigData* a, BigData* b) {
Sub(a->m_primary, b->m_primary, 1);
}
void SBigDel(BigData* num) {
void STORMAPI SBigDel(BigData* num) {
delete num;
}
void SBigDiv(BigData* a, BigData* b, BigData* c) {
void STORMAPI SBigDiv(BigData* a, BigData* b, BigData* c) {
uint32_t allocCount = 0;
BigBuffer& buf = a->Stack().Alloc(&allocCount);
@ -53,39 +53,39 @@ void SBigDiv(BigData* a, BigData* b, BigData* c) {
a->Stack().Free(allocCount);
}
void SBigFromBinary(BigData* num, const void* data, uint32_t bytes) {
void STORMAPI SBigFromBinary(BigData* num, const void* data, uint32_t bytes) {
FromBinary(num->Primary(), data, bytes);
}
void SBigFromStr(BigData* num, const char *str) {
void STORMAPI SBigFromStr(BigData* num, const char *str) {
FromStr(num->Primary(), str);
}
void SBigFromUnsigned(BigData* num, uint32_t val) {
void STORMAPI SBigFromUnsigned(BigData* num, uint32_t val) {
FromUnsigned(num->Primary(), val);
}
void SBigInc(BigData* a, BigData* b) {
void STORMAPI SBigInc(BigData* a, BigData* b) {
Add(a->Primary(), b->Primary(), 1);
}
int32_t SBigIsEven(BigData* a) {
int32_t STORMAPI SBigIsEven(BigData* a) {
return IsEven(a->Primary());
}
int32_t SBigIsOdd(BigData* a) {
int32_t STORMAPI SBigIsOdd(BigData* a) {
return IsOdd(a->Primary());
}
int32_t SBigIsOne(BigData* a) {
int32_t STORMAPI SBigIsOne(BigData* a) {
return IsOne(a->Primary());
}
int32_t SBigIsZero(BigData* a) {
int32_t STORMAPI SBigIsZero(BigData* a) {
return IsZero(a->Primary());
}
void SBigMod(BigData* a, BigData* b, BigData* c) {
void STORMAPI SBigMod(BigData* a, BigData* b, BigData* c) {
uint32_t allocCount = 0;
auto& scratch = a->Stack().Alloc(&allocCount);
@ -94,43 +94,43 @@ void SBigMod(BigData* a, BigData* b, BigData* c) {
a->Stack().Free(allocCount);
}
void SBigMul(BigData* a, BigData* b, BigData* c) {
void STORMAPI SBigMul(BigData* a, BigData* b, BigData* c) {
Mul(a->Primary(), b->Primary(), c->Primary(), a->Stack());
}
void SBigNew(BigData** num) {
void STORMAPI SBigNew(BigData** num) {
*num = STORM_NEW(BigData);
}
void SBigNot(BigData* a, BigData* b) {
void STORMAPI SBigNot(BigData* a, BigData* b) {
Not(a->Primary(), b->Primary());
}
void SBigOr(BigData* a, BigData* b, BigData* c) {
void STORMAPI SBigOr(BigData* a, BigData* b, BigData* c) {
Or(a->Primary(), b->Primary(), c->Primary());
}
void SBigPowMod(BigData* a, BigData* b, BigData* c, BigData* d) {
void STORMAPI SBigPowMod(BigData* a, BigData* b, BigData* c, BigData* d) {
PowMod(a->Primary(), b->Primary(), c->Primary(), d->Primary(), a->Stack());
}
void SBigShl(BigData* a, BigData* b, uint32_t shift) {
void STORMAPI SBigShl(BigData* a, BigData* b, uint32_t shift) {
Shl(a->Primary(), b->Primary(), shift);
}
void SBigShr(BigData* a, BigData* b, uint32_t shift) {
void STORMAPI SBigShr(BigData* a, BigData* b, uint32_t shift) {
Shr(a->Primary(), b->Primary(), shift);
}
void SBigSquare(BigData* a, BigData* b) {
void STORMAPI SBigSquare(BigData* a, BigData* b) {
Square(a->Primary(), b->Primary(), a->Stack());
}
void SBigSub(BigData* a, BigData* b, BigData* c) {
void STORMAPI SBigSub(BigData* a, BigData* b, BigData* c) {
Sub(a->Primary(), b->Primary(), c->Primary());
}
void SBigToBinaryBuffer(BigData* num, uint8_t* data, uint32_t maxBytes, uint32_t* bytes) {
void STORMAPI SBigToBinaryBuffer(BigData* num, uint8_t* data, uint32_t maxBytes, uint32_t* bytes) {
auto& output = num->Output();
ToBinary(output, num->Primary());
@ -142,10 +142,10 @@ void SBigToBinaryBuffer(BigData* num, uint8_t* data, uint32_t maxBytes, uint32_t
}
}
void SBigToUnsigned(BigData* num, uint32_t* val) {
void STORMAPI SBigToUnsigned(BigData* num, uint32_t* val) {
ToUnsigned(val, num->Primary());
}
void SBigXor(BigData* a, BigData* b, BigData* c) {
void STORMAPI SBigXor(BigData* a, BigData* b, BigData* c) {
Xor(a->Primary(), b->Primary(), c->Primary());
}