/* * Copyright (c) 1987 Fujitsu * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. */ /* structSemantics.c -- Routines to handle struct's for Macross assembler Chip Morningstar -- Lucasfilm Ltd. 7-December-1984 */ #include "macrossTypes.h" #include "macrossGlobals.h" void putStructFixups(base, fixups) int base; fixupListType *fixups; { fixupListType *newFixup; while (fixups != NULL) { newFixup = typeAlloc(fixupListType); newFixup->locationToFixup = base + fixups->locationToFixup; newFixup->kindOfFixup = fixups->kindOfFixup; newFixup->theFixupExpression = fixups->theFixupExpression; if (structNestingDepth == 0) { newFixup->nextFixup = fixupList; fixupList = newFixup; } else { newFixup->nextFixup = newStruct->structFixups; newStruct->structFixups = newFixup; } fixups = fixups->nextFixup; } } void putStructReferences(base, references) int base; expressionReferenceListType *references; { expressionReferenceListType *newReference; int currentMode; if (!produceLinkableObject) return; currentMode = structNestingDepth==0 ? (int)currentCodeMode : STRUCT_BUFFER; while (references != NULL) { newReference = typeAlloc(expressionReferenceListType); newReference->relocation = references->relocation; newReference->relocation.referenceAddress += base; newReference->expressionReferenced = references-> expressionReferenced; newReference->nextReference = expressionReferenceList[ currentMode]; expressionReferenceList[currentMode] = newReference; references = references->nextReference; } } void instantiateStruct(structStatement) structStatementBodyType *structStatement; { int i; int base; symbolInContextType *context; symbolInContextType *getWorkingContext(); #define structInstance ((structInstanceType *) context->value->value) context = getWorkingContext(structStatement->structName); if (context == NULL) botch("struct doesn't have working context\n"); if (context->usage != STRUCT_NAME_SYMBOL) { error(NOT_A_STRUCT_NAME_ERROR, structStatement->structName-> symbolName); } else if (context->value->kindOfValue != STRUCT_VALUE) { botch("struct name doesn't have struct value\n"); } else { expand((moreText("struct\t%s", structStatement->structName-> symbolName), endLine())); base = structNestingDepth==0 ? currentLocationCounter.value : currentFieldOffset; for (i=0; istructSize; i++) emitByte(structInstance->structMap[i]); putStructFixups(base, structInstance->structFixups); putStructReferences(base, structInstance->structReferences); } } structInstanceType * assembleStructDefinitionBody(structBody) structBodyType *structBody; { int i; simpleFixupListType *dummy; newStruct = typeAlloc(structInstanceType); newStruct->structFixups = NULL; currentFieldOffset = 0; while (structBody != NULL) { expand(listableStatement(structBody->kindOfStatement) ? startLine() : 0); assembleLabelList(structBody->labels); expand(listableStatement(structBody->kindOfStatement) ? (expandLabel(), tabIndent()) : 0); assembleStatementBody(structBody->kindOfStatement, structBody->statementBody, 0 /* random guess */, FALSE, &dummy); if (currentFieldOffset > MAXIMUM_ALLOWED_STRUCT_SIZE) { error(STRUCT_TOO_BIG_ERROR); return(NULL); } structBody = (blockType *)structBody->nextStatement; } newStruct->structSize = currentFieldOffset; newStruct->structMap = (byte *)malloc(currentFieldOffset); newStruct->structReferences = expressionReferenceList[STRUCT_BUFFER]; for (i=0; istructMap[i] = structScratchBuffer[i]; return(newStruct); } void assembleStructDefinition(structStatement) structStatementBodyType *structStatement; { symbolTableEntryType *name; symbolInContextType *context; symbolTableEntryType *effectiveSymbol(); name = effectiveSymbol(structStatement->structName, &context); if (context == NULL) botch("struct definition doesn't have working context\n"); if (context->usage != STRUCT_NAME_SYMBOL) error(NOT_A_STRUCT_NAME_ERROR, structStatement->structName-> symbolName); else if (structNestingDepth > 0) error(STRUCT_DEFINITION_INSIDE_STRUCT_DEFINITION_ERROR); else { structNestingDepth++; expressionReferenceList[STRUCT_BUFFER] = NULL; numberOfReferencesInList[STRUCT_BUFFER] = 0; context->value->kindOfValue = STRUCT_VALUE; expand((moreText("struct {"), endLine(), tabCount++)); context->value->value = (int) assembleStructDefinitionBody(structStatement->structBody); expand((tabCount--, startLineMarked(), tabIndent(), moreText("} %s", symbName(structStatement-> structName)), endLine())); context->environmentNumber = GLOBAL_ENVIRONMENT_NUMBER; structNestingDepth--; } }