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fix merlin ddb
ddb generates a "double byte" which is actually a big-endian 16-bit number. For relocation purposes, it has to be handled as 2 individual bytes with shifts to adjust it.
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c2492ab348
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8
test/merlin_data.s
Normal file
8
test/merlin_data.s
Normal file
@ -0,0 +1,8 @@
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; merlin_data.s
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db $12,$34,$56,$78
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ddb $1234,$5678 ; double byte - big endian format.
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dw $1234
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da $1234
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adr $123456
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adrl $12345678
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71
x65.cpp
71
x65.cpp
@ -322,6 +322,7 @@ enum AssemblerDirective {
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AD_ENT, // ENT: MERLIN extern this address label
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AD_EXT, // EXT: MERLIN reference this address label from a different file
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AD_CYC, // CYC: MERLIN start / stop cycle timer
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AD_DBL_BYTES, // DDB: MERLIN Store 2 bytes, big endian format.
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AD_ERROR,
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};
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@ -1057,7 +1058,7 @@ DirectiveName aDirectiveNamesMerlin[] {
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{ "DW", AD_WORDS }, // MERLIN
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{ "ASC", AD_TEXT }, // MERLIN
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{ "PUT", AD_INCLUDE }, // MERLIN
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{ "DDB", AD_WORDS }, // MERLIN
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{ "DDB", AD_DBL_BYTES }, // MERLIN
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{ "DB", AD_BYTES }, // MERLIN
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{ "DFB", AD_BYTES }, // MERLIN
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{ "HEX", AD_HEX }, // MERLIN
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@ -1591,6 +1592,7 @@ typedef struct sLateEval {
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LET_BRANCH, // calculate a branch offset and store at this address
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LET_BRANCH_16, // calculate a branch offset of 16 bits and store at this address
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LET_BYTE, // calculate a byte and store at this address
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LET_DBL_BYTE, // calculate a 16-bit, big endian number.
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};
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int target; // offset into output buffer
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int address; // current pc
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@ -1948,7 +1950,7 @@ public:
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StatusCode Directive_LNK(strref line);
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StatusCode Directive_XDEF(strref line);
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StatusCode Directive_XREF(strref label);
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StatusCode Directive_DC(strref line, int width, strref source_file);
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StatusCode Directive_DC(strref line, int width, strref source_file, bool little_endian = true);
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StatusCode Directive_DS(strref line);
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StatusCode Directive_ALIGN(strref line);
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StatusCode Directive_EVAL(strref line);
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@ -4257,6 +4259,23 @@ StatusCode Asm::CheckLateEval(strref added_label, int scope_end, bool print_miss
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allSections[sec].SetByte(trg, value);
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break;
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case LateEval::LET_DBL_BYTE:
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if (ret==STATUS_RELATIVE_SECTION) {
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if (i->section<0) {
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resolved = false;
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} else {
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allSections[sec].AddReloc(lastEvalValue, trg, lastEvalSection, 1, lastEvalShift-8);
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allSections[sec].AddReloc(lastEvalValue, trg+1, lastEvalSection, 1, lastEvalShift);
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value = 0;
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}
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}
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if ((trg+1)>=allSections[sec].size()) {
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return ERROR_SECTION_TARGET_OFFSET_OUT_OF_RANGE;
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}
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allSections[sec].SetByte(trg, value>>8);
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allSections[sec].SetByte(trg+1, value);
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break;
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case LateEval::LET_ABS_REF:
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if (ret==STATUS_RELATIVE_SECTION) {
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if (i->section<0) {
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@ -5388,7 +5407,7 @@ StatusCode Asm::Directive_XREF(strref label)
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}
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// dc.b, dc.w, dc.t, dc.l, ADR, ADRL, bytes, words, long
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StatusCode Asm::Directive_DC(strref line, int width, strref source_file)
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StatusCode Asm::Directive_DC(strref line, int width, strref source_file, bool little_endian)
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{
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struct EvalContext etx;
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SetEvalCtxDefaults(etx);
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@ -5401,18 +5420,43 @@ StatusCode Asm::Directive_DC(strref line, int width, strref source_file)
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StatusCode error = EvalExpression(exp_dc, etx, value);
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if (error > STATUS_XREF_DEPENDENT)
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break;
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else if (error == STATUS_NOT_READY || error == STATUS_XREF_DEPENDENT)
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AddLateEval(CurrSection().DataOffset(), CurrSection().GetPC(), scope_address[scope_depth], exp_dc, source_file,
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width == 1 ? LateEval::LET_BYTE : (width == 2 ? LateEval::LET_ABS_REF : (width == 3 ? LateEval::LET_ABS_L_REF : LateEval::LET_ABS_4_REF)));
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else if (error == STATUS_RELATIVE_SECTION) {
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else if (error == STATUS_NOT_READY || error == STATUS_XREF_DEPENDENT) {
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static LateEval::Type sizes[] = {
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LateEval::LET_BYTE,
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LateEval::LET_ABS_REF,
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LateEval::LET_ABS_L_REF,
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LateEval::LET_ABS_4_REF
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};
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LateEval::Type type = sizes[width - 1];
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if (!little_endian && width == 2) {
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type = LateEval::LET_DBL_BYTE;
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}
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AddLateEval(CurrSection().DataOffset(), CurrSection().GetPC(), scope_address[scope_depth], exp_dc, source_file, type);
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} else if (error == STATUS_RELATIVE_SECTION) {
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value = 0;
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CurrSection().AddReloc(lastEvalValue, CurrSection().DataOffset(), lastEvalSection, (int8_t)width, (int8_t)lastEvalShift);
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if (little_endian || width == 1) {
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CurrSection().AddReloc(lastEvalValue, CurrSection().DataOffset(), lastEvalSection, (int8_t)width, (int8_t)lastEvalShift);
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} else {
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// big endian needs 1 reloc for each byte
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int shift = lastEvalShift + 8 - width * 8;
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for (int i = 0; i < width; ++i, shift += 8) {
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CurrSection().AddReloc(lastEvalValue, CurrSection().DataOffset() + i, lastEvalSection, 1, (int8_t)shift);
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}
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}
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}
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}
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uint8_t bytes[4] = {
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(uint8_t)value, (uint8_t)(value >> 8),
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(uint8_t)(value >> 16), (uint8_t)(value >> 24) };
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AddBin(bytes, width);
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if (little_endian) {
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uint8_t bytes[4] = {
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(uint8_t)value, (uint8_t)(value >> 8),
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(uint8_t)(value >> 16), (uint8_t)(value >> 24) };
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AddBin(bytes, width);
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} else {
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uint8_t bytes[4] = {
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(uint8_t)(value >> 24), (uint8_t)(value >> 16),
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(uint8_t)(value >> 8), (uint8_t)value };
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AddBin(bytes + 4 - width, width);
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}
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}
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return STATUS_OK;
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}
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@ -5654,6 +5698,9 @@ StatusCode Asm::ApplyDirective(AssemblerDirective dir, strref line, strref sourc
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case AD_WORDS: // words: add words (16 bit values) by comma separated values
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return Directive_DC(line, 2, source_file);
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case AD_DBL_BYTES: // DDB: Merlin store 2-byte word, big endian format.
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return Directive_DC(line, 2, source_file, false);
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case AD_ADR: // ADR: MERLIN store 3 byte word
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return Directive_DC(line, 3, source_file);
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