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Use automatic allocation for section names

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This commit is contained in:
Rangi42
2024-02-28 19:02:00 -05:00
committed by Sylvie
parent 3c0af94c5c
commit 5a26a48d11
7 changed files with 77 additions and 79 deletions
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2
include/link/section.hpp
View File

@@ -30,7 +30,7 @@ struct Patch {
struct Section {
// Info contained in the object files
std::string *name;
std::string name;
uint16_t size;
uint16_t offset;
enum SectionType type;

10
src/link/assign.cpp
View File

@@ -318,17 +318,17 @@ static void placeSection(struct Section *section)
// If a section failed to go to several places, nothing we can report
if (!section->isBankFixed || !section->isAddressFixed)
errx("Unable to place \"%s\" (%s section) %s",
section->name->c_str(), sectionTypeInfo[section->type].name.c_str(), where);
section->name.c_str(), sectionTypeInfo[section->type].name.c_str(), where);
// If the section just can't fit the bank, report that
else if (section->org + section->size > endaddr(section->type) + 1)
errx("Unable to place \"%s\" (%s section) %s: section runs past end of region ($%04x > $%04x)",
section->name->c_str(), sectionTypeInfo[section->type].name.c_str(), where,
section->name.c_str(), sectionTypeInfo[section->type].name.c_str(), where,
section->org + section->size, endaddr(section->type) + 1);
// Otherwise there is overlap with another section
else
errx("Unable to place \"%s\" (%s section) %s: section overlaps with \"%s\"",
section->name->c_str(), sectionTypeInfo[section->type].name.c_str(), where,
out_OverlappingSection(section)->name->c_str());
section->name.c_str(), sectionTypeInfo[section->type].name.c_str(), where,
out_OverlappingSection(section)->name.c_str());
}
#define BANK_CONSTRAINED (1 << 2)
@@ -396,7 +396,7 @@ void assign_AssignSections(void)
constraints >= 0; constraints--) {
for (struct Section *section : unassignedSections[constraints]) {
fprintf(stderr, "%c \"%s\"", nbSections == 0 ? ';': ',',
section->name->c_str());
section->name.c_str());
nbSections++;
if (nbSections == 10)
goto max_out;

54
src/link/object.cpp
View File

@@ -219,7 +219,7 @@ static void readSymbol(FILE *file, struct Symbol *symbol, char const *fileName,
* @param fileName The filename to report in errors
* @param i The number of the patch to report in errors
*/
static void readPatch(FILE *file, struct Patch *patch, char const *fileName, char const *sectName,
static void readPatch(FILE *file, struct Patch *patch, char const *fileName, std::string const &sectName,
uint32_t i, std::vector<struct FileStackNode> const &fileNodes)
{
uint32_t nodeID, rpnSize;
@@ -227,34 +227,34 @@ static void readPatch(FILE *file, struct Patch *patch, char const *fileName, cha
tryReadlong(nodeID, file,
"%s: Unable to read \"%s\"'s patch #%" PRIu32 "'s node ID: %s",
fileName, sectName, i);
fileName, sectName.c_str(), i);
patch->src = &fileNodes[nodeID];
tryReadlong(patch->lineNo, file,
"%s: Unable to read \"%s\"'s patch #%" PRIu32 "'s line number: %s",
fileName, sectName, i);
fileName, sectName.c_str(), i);
tryReadlong(patch->offset, file,
"%s: Unable to read \"%s\"'s patch #%" PRIu32 "'s offset: %s",
fileName, sectName, i);
fileName, sectName.c_str(), i);
tryReadlong(patch->pcSectionID, file,
"%s: Unable to read \"%s\"'s patch #%" PRIu32 "'s PC offset: %s",
fileName, sectName, i);
fileName, sectName.c_str(), i);
tryReadlong(patch->pcOffset, file,
"%s: Unable to read \"%s\"'s patch #%" PRIu32 "'s PC offset: %s",
fileName, sectName, i);
fileName, sectName.c_str(), i);
tryGetc(enum PatchType, type, file,
"%s: Unable to read \"%s\"'s patch #%" PRIu32 "'s type: %s",
fileName, sectName, i);
fileName, sectName.c_str(), i);
patch->type = type;
tryReadlong(rpnSize, file,
"%s: Unable to read \"%s\"'s patch #%" PRIu32 "'s RPN size: %s",
fileName, sectName, i);
fileName, sectName.c_str(), i);
patch->rpnExpression.resize(rpnSize);
size_t nbElementsRead = fread(&patch->rpnExpression[0], 1, rpnSize, file);
if (nbElementsRead != rpnSize)
errx("%s: Cannot read \"%s\"'s patch #%" PRIu32 "'s RPN expression: %s",
fileName, sectName, i,
fileName, sectName.c_str(), i,
feof(file) ? "Unexpected end of file" : strerror(errno));
}
@@ -279,15 +279,18 @@ static void readSection(FILE *file, struct Section *section, char const *fileNam
{
int32_t tmp;
uint8_t byte;
std::string *str;
tryReadstring(section->name, file, "%s: Cannot read section name: %s", fileName);
tryReadlong(tmp, file, "%s: Cannot read \"%s\"'s' size: %s", fileName, section->name->c_str());
tryReadstring(str, file, "%s: Cannot read section name: %s", fileName);
section->name = *str;
delete str;
tryReadlong(tmp, file, "%s: Cannot read \"%s\"'s' size: %s", fileName, section->name.c_str());
if (tmp < 0 || tmp > UINT16_MAX)
errx("\"%s\"'s section size (%" PRId32 ") is invalid", section->name->c_str(), tmp);
errx("\"%s\"'s section size (%" PRId32 ") is invalid", section->name.c_str(), tmp);
section->size = tmp;
section->offset = 0;
tryGetc(uint8_t, byte, file, "%s: Cannot read \"%s\"'s type: %s", fileName,
section->name->c_str());
section->name.c_str());
section->type = (enum SectionType)(byte & 0x3F);
if (byte >> 7)
section->modifier = SECTION_UNION;
@@ -295,27 +298,27 @@ static void readSection(FILE *file, struct Section *section, char const *fileNam
section->modifier = SECTION_FRAGMENT;
else
section->modifier = SECTION_NORMAL;
tryReadlong(tmp, file, "%s: Cannot read \"%s\"'s org: %s", fileName, section->name->c_str());
tryReadlong(tmp, file, "%s: Cannot read \"%s\"'s org: %s", fileName, section->name.c_str());
section->isAddressFixed = tmp >= 0;
if (tmp > UINT16_MAX) {
error(NULL, 0, "\"%s\"'s org is too large (%" PRId32 ")", section->name->c_str(), tmp);
error(NULL, 0, "\"%s\"'s org is too large (%" PRId32 ")", section->name.c_str(), tmp);
tmp = UINT16_MAX;
}
section->org = tmp;
tryReadlong(tmp, file, "%s: Cannot read \"%s\"'s bank: %s", fileName, section->name->c_str());
tryReadlong(tmp, file, "%s: Cannot read \"%s\"'s bank: %s", fileName, section->name.c_str());
section->isBankFixed = tmp >= 0;
section->bank = tmp;
tryGetc(uint8_t, byte, file, "%s: Cannot read \"%s\"'s alignment: %s", fileName,
section->name->c_str());
section->name.c_str());
if (byte > 16)
byte = 16;
section->isAlignFixed = byte != 0;
section->alignMask = (1 << byte) - 1;
tryReadlong(tmp, file, "%s: Cannot read \"%s\"'s alignment offset: %s", fileName,
section->name->c_str());
section->name.c_str());
if (tmp > UINT16_MAX) {
error(NULL, 0, "\"%s\"'s alignment offset is too large (%" PRId32 ")",
section->name->c_str(), tmp);
section->name.c_str(), tmp);
tmp = UINT16_MAX;
}
section->alignOfs = tmp;
@@ -323,11 +326,11 @@ static void readSection(FILE *file, struct Section *section, char const *fileNam
if (sect_HasData(section->type)) {
section->data = new(std::nothrow) std::vector<uint8_t>(section->size);
if (!section->data)
err("%s: Unable to read \"%s\"'s data", fileName, section->name->c_str());
err("%s: Unable to read \"%s\"'s data", fileName, section->name.c_str());
if (section->size) {
if (size_t nbRead = fread(&(*section->data)[0], 1, section->size, file);
nbRead != section->size)
errx("%s: Cannot read \"%s\"'s data: %s", fileName, section->name->c_str(),
errx("%s: Cannot read \"%s\"'s data: %s", fileName, section->name.c_str(),
feof(file) ? "Unexpected end of file" : strerror(errno));
}
@@ -335,12 +338,12 @@ static void readSection(FILE *file, struct Section *section, char const *fileNam
tryReadlong(nbPatches, file,
"%s: Cannot read \"%s\"'s number of patches: %s", fileName,
section->name->c_str());
section->name.c_str());
section->patches.resize(nbPatches);
for (uint32_t i = 0; i < nbPatches; i++)
readPatch(file, &section->patches[i], fileName, section->name->c_str(),
i, fileNodes);
readPatch(file, &section->patches[i], fileName, section->name, i,
fileNodes);
} else {
section->data = NULL; // `mergeSections()` expects to be able to always read the ptr
}
@@ -387,7 +390,7 @@ static void readAssertion(FILE *file, struct Assertion *assert, char const *file
static struct Section *getMainSection(struct Section *section)
{
if (section->modifier != SECTION_NORMAL)
section = sect_GetSection(*section->name);
section = sect_GetSection(section->name);
return section;
}
@@ -569,7 +572,6 @@ static void freeSection(struct Section *section)
do {
struct Section *next = section->nextu;
delete section->name;
if (sect_HasData(section->type))
delete section->data;
delete section->symbols;

6
src/link/output.cpp
View File

@@ -71,7 +71,7 @@ void out_AddSection(struct Section const *section)
if (minNbBanks > maxNbBanks[section->type])
errx("Section \"%s\" has an invalid bank range (%" PRIu32 " > %" PRIu32 ")",
section->name->c_str(), section->bank,
section->name.c_str(), section->bank,
maxNbBanks[section->type] - 1);
for (uint32_t i = sections[section->type].size(); i < minNbBanks; i++)
@@ -408,10 +408,10 @@ static void writeMapBank(struct SortedSections const &sectList, enum SectionType
fprintf(mapFile, "\tSECTION: $%04" PRIx16 "-$%04x ($%04" PRIx16
" byte%s) [\"%s\"]\n",
sect->org, prevEndAddr - 1, sect->size, sect->size == 1 ? "" : "s",
sect->name->c_str());
sect->name.c_str());
else
fprintf(mapFile, "\tSECTION: $%04" PRIx16 " (0 bytes) [\"%s\"]\n",
sect->org, sect->name->c_str());
sect->org, sect->name.c_str());
if (!noSymInMap) {
// Also print symbols in the following "pieces"

2
src/link/patch.cpp
View File

@@ -451,7 +451,7 @@ void patch_CheckAssertions(std::deque<struct Assertion> &assertions)
*/
static void applyFilePatches(struct Section *section, struct Section *dataSection)
{
verbosePrint("Patching section \"%s\"...\n", section->name->c_str());
verbosePrint("Patching section \"%s\"...\n", section->name.c_str());
for (struct Patch &patch : section->patches) {
int32_t value = computeRPNExpr(&patch, *section->fileSymbols);
uint16_t offset = patch.offset + section->offset;

32
src/link/sdas_obj.cpp
View File

@@ -264,7 +264,7 @@ void sdobj_ReadFile(struct FileStackNode const *where, FILE *file, std::vector<s
assert(strlen(token) != 0); // This should be impossible, tokens are non-empty
// The following is required for fragment offsets to be reliably predicted
for (struct FileSection &entry : fileSections) {
if (!strcmp(token, entry.section->name->c_str()))
if (!strcmp(token, entry.section->name.c_str()))
fatal(where, lineNo, "Area \"%s\" already defined earlier",
token);
}
@@ -280,7 +280,7 @@ void sdobj_ReadFile(struct FileStackNode const *where, FILE *file, std::vector<s
if (tmp > UINT16_MAX)
fatal(where, lineNo, "Area \"%s\" is larger than the GB address space!?",
curSection->name->c_str());
curSection->name.c_str());
curSection->size = tmp;
expectToken("flags", 'A');
@@ -293,16 +293,12 @@ void sdobj_ReadFile(struct FileStackNode const *where, FILE *file, std::vector<s
curSection->isBankFixed = curSection->isAddressFixed;
curSection->modifier = curSection->isAddressFixed || (tmp & (1 << AREA_TYPE))
? SECTION_NORMAL : SECTION_FRAGMENT;
curSection->name = new(std::nothrow) std::string();
if (!curSection->name)
fatal(where, lineNo, "Failed to alloc new area's name: %s",
strerror(errno));
// If the section is absolute, its name might not be unique; thus, mangle the name
if (curSection->modifier == SECTION_NORMAL) {
curSection->name->append(where->name());
curSection->name->append(" ");
curSection->name.append(where->name());
curSection->name.append(" ");
}
curSection->name->append(sectionName);
curSection->name.append(sectionName);
expectToken("addr", 'A');
@@ -470,7 +466,7 @@ void sdobj_ReadFile(struct FileStackNode const *where, FILE *file, std::vector<s
if (section->isAddressFixed) {
if (addr < section->org)
fatal(where, lineNo, "'T' line reports address $%04" PRIx16 " in \"%s\", which starts at $%04" PRIx16,
addr, section->name->c_str(), section->org);
addr, section->name.c_str(), section->org);
addr -= section->org;
}
// Lines are emitted that violate this check but contain no "payload";
@@ -484,7 +480,7 @@ void sdobj_ReadFile(struct FileStackNode const *where, FILE *file, std::vector<s
section->data = new(std::nothrow) std::vector<uint8_t>(section->size);
if (!section->data)
fatal(where, lineNo, "Failed to alloc data for \"%s\": %s",
section->name->c_str(), strerror(errno));
section->name.c_str(), strerror(errno));
}
}
@@ -613,8 +609,8 @@ void sdobj_ReadFile(struct FileStackNode const *where, FILE *file, std::vector<s
// the section gets moved for any reason.
if (fileSections[idx].section->isAddressFixed)
baseValue -= fileSections[idx].section->org;
std::string const *name = fileSections[idx].section->name;
struct Section const *other = sect_GetSection(*name);
std::string const &name = fileSections[idx].section->name;
struct Section const *other = sect_GetSection(name);
// Unlike with `s_<AREA>`, referencing an area in this way
// wants the beginning of this fragment, so we must add the
@@ -626,10 +622,10 @@ void sdobj_ReadFile(struct FileStackNode const *where, FILE *file, std::vector<s
// current size.
if (other)
baseValue += other->size;
patch.rpnExpression.resize(1 + name->length() + 1);
patch.rpnExpression.resize(1 + name.length() + 1);
patch.rpnExpression[0] = RPN_STARTOF_SECT;
// The cast is fine, it's just different signedness
memcpy((char *)&patch.rpnExpression[1], name->c_str(), name->length() + 1);
memcpy((char *)&patch.rpnExpression[1], name.c_str(), name.length() + 1);
}
patch.rpnExpression.push_back(RPN_CONST);
@@ -645,7 +641,7 @@ void sdobj_ReadFile(struct FileStackNode const *where, FILE *file, std::vector<s
if (flags & 1 << RELOC_EXPR16) {
if (*writeIndex + (offset - writtenOfs) > section->size)
fatal(where, lineNo, "'T' line writes past \"%s\"'s end (%u > %" PRIu16 ")",
section->name->c_str(), *writeIndex + (offset - writtenOfs), section->size);
section->name.c_str(), *writeIndex + (offset - writtenOfs), section->size);
// Copy all bytes up to those (plus the byte that we'll overwrite)
memcpy(&(*section->data)[*writeIndex], &data[writtenOfs], offset - writtenOfs + 1);
*writeIndex += offset - writtenOfs + 1;
@@ -694,7 +690,7 @@ void sdobj_ReadFile(struct FileStackNode const *where, FILE *file, std::vector<s
assert(nbBytes > writtenOfs);
if (*writeIndex + (nbBytes - writtenOfs) > section->size)
fatal(where, lineNo, "'T' line writes past \"%s\"'s end (%zu > %" PRIu16 ")",
section->name->c_str(), *writeIndex + (nbBytes - writtenOfs), section->size);
section->name.c_str(), *writeIndex + (nbBytes - writtenOfs), section->size);
memcpy(&(*section->data)[*writeIndex], &data[writtenOfs], nbBytes - writtenOfs);
*writeIndex += nbBytes - writtenOfs;
}
@@ -727,7 +723,7 @@ void sdobj_ReadFile(struct FileStackNode const *where, FILE *file, std::vector<s
// RAM sections can have a size, but don't get any data (they shouldn't have any)
if (entry.writeIndex != section->size && entry.writeIndex != 0)
fatal(where, lineNo, "\"%s\" was not fully written (%" PRIu16 " < %" PRIu16 ")",
section->name->c_str(), entry.writeIndex, section->size);
section->name.c_str(), entry.writeIndex, section->size);
// This must be done last, so that `->data` is not NULL anymore
sect_AddSection(section);

50
src/link/section.cpp
View File

@@ -27,12 +27,12 @@ static void checkSectUnionCompat(struct Section *target, struct Section *other)
if (target->isAddressFixed) {
if (target->org != other->org)
errx("Section \"%s\" is defined with conflicting addresses $%04"
PRIx16 " and $%04" PRIx16, other->name->c_str(), target->org,
PRIx16 " and $%04" PRIx16, other->name.c_str(), target->org,
other->org);
} else if (target->isAlignFixed) {
if ((other->org - target->alignOfs) & target->alignMask)
errx("Section \"%s\" is defined with conflicting %d-byte alignment (offset %"
PRIu16 ") and address $%04" PRIx16, other->name->c_str(),
PRIu16 ") and address $%04" PRIx16, other->name.c_str(),
target->alignMask + 1, target->alignOfs, other->org);
}
target->isAddressFixed = true;
@@ -43,14 +43,14 @@ static void checkSectUnionCompat(struct Section *target, struct Section *other)
if ((target->org - other->alignOfs) & other->alignMask)
errx("Section \"%s\" is defined with conflicting address $%04"
PRIx16 " and %d-byte alignment (offset %" PRIu16 ")",
other->name->c_str(), target->org, other->alignMask + 1,
other->name.c_str(), target->org, other->alignMask + 1,
other->alignOfs);
} else if (target->isAlignFixed
&& (other->alignMask & target->alignOfs)
!= (target->alignMask & other->alignOfs)) {
errx("Section \"%s\" is defined with conflicting %d-byte alignment (offset %"
PRIu16 ") and %d-byte alignment (offset %" PRIu16 ")",
other->name->c_str(), target->alignMask + 1, target->alignOfs,
other->name.c_str(), target->alignMask + 1, target->alignOfs,
other->alignMask + 1, other->alignOfs);
} else if (!target->isAlignFixed || (other->alignMask > target->alignMask)) {
target->isAlignFixed = true;
@@ -67,13 +67,13 @@ static void checkFragmentCompat(struct Section *target, struct Section *other)
if (target->isAddressFixed) {
if (target->org != org)
errx("Section \"%s\" is defined with conflicting addresses $%04"
PRIx16 " and $%04" PRIx16, other->name->c_str(), target->org,
PRIx16 " and $%04" PRIx16, other->name.c_str(), target->org,
other->org);
} else if (target->isAlignFixed) {
if ((org - target->alignOfs) & target->alignMask)
errx("Section \"%s\" is defined with conflicting %d-byte alignment (offset %"
PRIu16 ") and address $%04" PRIx16, other->name->c_str(),
PRIu16 ") and address $%04" PRIx16, other->name.c_str(),
target->alignMask + 1, target->alignOfs, other->org);
}
target->isAddressFixed = true;
@@ -89,14 +89,14 @@ static void checkFragmentCompat(struct Section *target, struct Section *other)
if ((target->org - ofs) & other->alignMask)
errx("Section \"%s\" is defined with conflicting address $%04"
PRIx16 " and %d-byte alignment (offset %" PRIu16 ")",
other->name->c_str(), target->org, other->alignMask + 1,
other->name.c_str(), target->org, other->alignMask + 1,
other->alignOfs);
} else if (target->isAlignFixed
&& (other->alignMask & target->alignOfs) != (target->alignMask & ofs)) {
errx("Section \"%s\" is defined with conflicting %d-byte alignment (offset %"
PRIu16 ") and %d-byte alignment (offset %" PRIu16 ")",
other->name->c_str(), target->alignMask + 1, target->alignOfs,
other->name.c_str(), target->alignMask + 1, target->alignOfs,
other->alignMask + 1, other->alignOfs);
} else if (!target->isAlignFixed || (other->alignMask > target->alignMask)) {
@@ -113,7 +113,7 @@ static void mergeSections(struct Section *target, struct Section *other, enum Se
if (target->type != other->type)
errx("Section \"%s\" is defined with conflicting types %s and %s",
other->name->c_str(), sectionTypeInfo[target->type].name.c_str(),
other->name.c_str(), sectionTypeInfo[target->type].name.c_str(),
sectionTypeInfo[other->type].name.c_str());
if (other->isBankFixed) {
@@ -122,7 +122,7 @@ static void mergeSections(struct Section *target, struct Section *other, enum Se
target->bank = other->bank;
} else if (target->bank != other->bank) {
errx("Section \"%s\" is defined with conflicting banks %" PRIu32 " and %"
PRIu32, other->name->c_str(), target->bank, other->bank);
PRIu32, other->name.c_str(), target->bank, other->bank);
}
}
@@ -171,20 +171,20 @@ static void mergeSections(struct Section *target, struct Section *other, enum Se
void sect_AddSection(struct Section *section)
{
// Check if the section already exists
if (struct Section *other = sect_GetSection(*section->name); other) {
if (struct Section *other = sect_GetSection(section->name); other) {
if (section->modifier != other->modifier)
errx("Section \"%s\" defined as %s and %s", section->name->c_str(),
errx("Section \"%s\" defined as %s and %s", section->name.c_str(),
sectionModNames[section->modifier], sectionModNames[other->modifier]);
else if (section->modifier == SECTION_NORMAL)
errx("Section name \"%s\" is already in use", section->name->c_str());
errx("Section name \"%s\" is already in use", section->name.c_str());
else
mergeSections(other, section, section->modifier);
} else if (section->modifier == SECTION_UNION && sect_HasData(section->type)) {
errx("Section \"%s\" is of type %s, which cannot be unionized",
section->name->c_str(), sectionTypeInfo[section->type].name.c_str());
section->name.c_str(), sectionTypeInfo[section->type].name.c_str());
} else {
// If not, add it
sections[*section->name] = section;
sections[section->name] = section;
}
}
@@ -203,27 +203,27 @@ static void doSanityChecks(struct Section *section)
{
// Sanity check the section's type
if (section->type < 0 || section->type >= SECTTYPE_INVALID) {
error(NULL, 0, "Section \"%s\" has an invalid type", section->name->c_str());
error(NULL, 0, "Section \"%s\" has an invalid type", section->name.c_str());
return;
}
if (is32kMode && section->type == SECTTYPE_ROMX) {
if (section->isBankFixed && section->bank != 1)
error(NULL, 0, "%s: ROMX sections must be in bank 1 (if any) with option -t",
section->name->c_str());
section->name.c_str());
else
section->type = SECTTYPE_ROM0;
}
if (isWRA0Mode && section->type == SECTTYPE_WRAMX) {
if (section->isBankFixed && section->bank != 1)
error(NULL, 0, "%s: WRAMX sections must be in bank 1 with options -w or -d",
section->name->c_str());
section->name.c_str());
else
section->type = SECTTYPE_WRAM0;
}
if (isDmgMode && section->type == SECTTYPE_VRAM && section->bank == 1)
error(NULL, 0, "%s: VRAM bank 1 can't be used with option -d",
section->name->c_str());
section->name.c_str());
// Check if alignment is reasonable, this is important to avoid UB
// An alignment of zero is equivalent to no alignment, basically
@@ -233,7 +233,7 @@ static void doSanityChecks(struct Section *section)
// Too large an alignment may not be satisfiable
if (section->isAlignFixed && (section->alignMask & sectionTypeInfo[section->type].startAddr))
error(NULL, 0, "%s: %s sections cannot be aligned to $%04x bytes",
section->name->c_str(), sectionTypeInfo[section->type].name.c_str(),
section->name.c_str(), sectionTypeInfo[section->type].name.c_str(),
section->alignMask + 1);
uint32_t minbank = sectionTypeInfo[section->type].firstBank, maxbank = sectionTypeInfo[section->type].lastBank;
@@ -242,13 +242,13 @@ static void doSanityChecks(struct Section *section)
error(NULL, 0, minbank == maxbank
? "Cannot place section \"%s\" in bank %" PRIu32 ", it must be %" PRIu32
: "Cannot place section \"%s\" in bank %" PRIu32 ", it must be between %" PRIu32 " and %" PRIu32,
section->name->c_str(), section->bank, minbank, maxbank);
section->name.c_str(), section->bank, minbank, maxbank);
// Check if section has a chance to be placed
if (section->size > sectionTypeInfo[section->type].size)
error(NULL, 0, "Section \"%s\" is bigger than the max size for that type: $%"
PRIx16 " > $%" PRIx16,
section->name->c_str(), section->size, sectionTypeInfo[section->type].size);
section->name.c_str(), section->size, sectionTypeInfo[section->type].size);
// Translate loose constraints to strong ones when they're equivalent
@@ -262,7 +262,7 @@ static void doSanityChecks(struct Section *section)
if (section->isAlignFixed) {
if ((section->org & section->alignMask) != section->alignOfs)
error(NULL, 0, "Section \"%s\"'s fixed address doesn't match its alignment",
section->name->c_str());
section->name.c_str());
section->isAlignFixed = false;
}
@@ -270,12 +270,12 @@ static void doSanityChecks(struct Section *section)
if (section->org < sectionTypeInfo[section->type].startAddr
|| section->org > endaddr(section->type))
error(NULL, 0, "Section \"%s\"'s fixed address $%04" PRIx16 " is outside of range [$%04"
PRIx16 "; $%04" PRIx16 "]", section->name->c_str(), section->org,
PRIx16 "; $%04" PRIx16 "]", section->name.c_str(), section->org,
sectionTypeInfo[section->type].startAddr, endaddr(section->type));
if (section->org + section->size > endaddr(section->type) + 1)
error(NULL, 0, "Section \"%s\"'s end address $%04x is greater than last address $%04x",
section->name->c_str(), section->org + section->size,
section->name.c_str(), section->org + section->size,
endaddr(section->type) + 1);
}
}