Mercurial > hg > CbC > CbC_gcc
view gcc/d/dmd/json.c @ 145:1830386684a0
gcc-9.2.0
| author | anatofuz |
|---|---|
| date | Thu, 13 Feb 2020 11:34:05 +0900 |
| parents | |
| children |
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/* Compiler implementation of the D programming language * Copyright (C) 1999-2019 by The D Language Foundation, All Rights Reserved * written by Walter Bright * http://www.digitalmars.com * Distributed under the Boost Software License, Version 1.0. * http://www.boost.org/LICENSE_1_0.txt * https://github.com/D-Programming-Language/dmd/blob/master/src/json.c */ // This implements the JSON capability. #include "root/dsystem.h" #include "root/rmem.h" #include "mars.h" #include "dsymbol.h" #include "template.h" #include "aggregate.h" #include "declaration.h" #include "enum.h" #include "module.h" #include "json.h" #include "mtype.h" #include "attrib.h" #include "cond.h" #include "init.h" #include "import.h" #include "id.h" #include "hdrgen.h" class ToJsonVisitor : public Visitor { public: OutBuffer *buf; int indentLevel; const char *filename; ToJsonVisitor(OutBuffer *buf) : buf(buf), indentLevel(0), filename(NULL) { } void indent() { if (buf->offset >= 1 && buf->data[buf->offset - 1] == '\n') for (int i = 0; i < indentLevel; i++) buf->writeByte(' '); } void removeComma() { if (buf->offset >= 2 && buf->data[buf->offset - 2] == ',' && (buf->data[buf->offset - 1] == '\n' || buf->data[buf->offset - 1] == ' ')) buf->offset -= 2; } void comma() { if (indentLevel > 0) buf->writestring(",\n"); } void stringStart() { buf->writeByte('\"'); } void stringEnd() { buf->writeByte('\"'); } void stringPart(const char *s) { for (; *s; s++) { utf8_t c = (utf8_t) *s; switch (c) { case '\n': buf->writestring("\\n"); break; case '\r': buf->writestring("\\r"); break; case '\t': buf->writestring("\\t"); break; case '\"': buf->writestring("\\\""); break; case '\\': buf->writestring("\\\\"); break; case '\b': buf->writestring("\\b"); break; case '\f': buf->writestring("\\f"); break; default: if (c < 0x20) buf->printf("\\u%04x", c); else { // Note that UTF-8 chars pass through here just fine buf->writeByte(c); } break; } } } // Json value functions /********************************* * Encode string into buf, and wrap it in double quotes. */ void value(const char *s) { stringStart(); stringPart(s); stringEnd(); } void value(int value) { buf->printf("%d", value); } void valueBool(bool value) { buf->writestring(value ? "true" : "false"); } /********************************* * Item is an intented value and a comma, for use in arrays */ void item(const char *s) { indent(); value(s); comma(); } void item(int i) { indent(); value(i); comma(); } void itemBool(bool b) { indent(); valueBool(b); comma(); } // Json array functions void arrayStart() { indent(); buf->writestring("[\n"); indentLevel++; } void arrayEnd() { indentLevel--; removeComma(); if (buf->offset >= 2 && buf->data[buf->offset - 2] == '[' && buf->data[buf->offset - 1] == '\n') buf->offset -= 1; else if (!(buf->offset >= 1 && buf->data[buf->offset - 1] == '[')) { buf->writestring("\n"); indent(); } buf->writestring("]"); comma(); } // Json object functions void objectStart() { indent(); buf->writestring("{\n"); indentLevel++; } void objectEnd() { indentLevel--; removeComma(); if (buf->offset >= 2 && buf->data[buf->offset - 2] == '{' && buf->data[buf->offset - 1] == '\n') buf->offset -= 1; else { buf->writestring("\n"); indent(); } buf->writestring("}"); comma(); } // Json object property functions void propertyStart(const char *name) { indent(); value(name); buf->writestring(" : "); } void property(const char *name, const char *s) { if (s == NULL) return; propertyStart(name); value(s); comma(); } void property(const char *name, int i) { propertyStart(name); value(i); comma(); } void propertyBool(const char *name, bool b) { propertyStart(name); valueBool(b); comma(); } void property(const char *name, TRUST trust) { switch (trust) { case TRUSTdefault: // Should not be printed //property(name, "default"); break; case TRUSTsystem: property(name, "system"); break; case TRUSTtrusted: property(name, "trusted"); break; case TRUSTsafe: property(name, "safe"); break; default: assert(false); } } void property(const char *name, PURE purity) { switch (purity) { case PUREimpure: // Should not be printed //property(name, "impure"); break; case PUREweak: property(name, "weak"); break; case PUREconst: property(name, "const"); break; case PUREstrong: property(name, "strong"); break; case PUREfwdref: property(name, "fwdref"); break; default: assert(false); } } void property(const char *name, LINK linkage) { switch (linkage) { case LINKdefault: // Should not be printed //property(name, "default"); break; case LINKd: // Should not be printed //property(name, "d"); break; case LINKc: property(name, "c"); break; case LINKcpp: property(name, "cpp"); break; case LINKwindows: property(name, "windows"); break; case LINKpascal: property(name, "pascal"); break; default: assert(false); } } void propertyStorageClass(const char *name, StorageClass stc) { stc &= STCStorageClass; if (stc) { propertyStart(name); arrayStart(); while (stc) { const char *p = stcToChars(stc); assert(p); item(p); } arrayEnd(); } } void property(const char *linename, const char *charname, Loc *loc) { if (loc) { const char *filename = loc->filename; if (filename) { if (!this->filename || strcmp(filename, this->filename)) { this->filename = filename; property("file", filename); } } if (loc->linnum) { property(linename, loc->linnum); if (loc->charnum) property(charname, loc->charnum); } } } void property(const char *name, Type *type) { if (type) { property(name, type->toChars()); } } void property(const char *name, const char *deconame, Type *type) { if (type) { if (type->deco) property(deconame, type->deco); else property(name, type->toChars()); } } void property(const char *name, Parameters *parameters) { if (parameters == NULL || parameters->dim == 0) return; propertyStart(name); arrayStart(); if (parameters) { for (size_t i = 0; i < parameters->dim; i++) { Parameter *p = (*parameters)[i]; objectStart(); if (p->ident) property("name", p->ident->toChars()); property("type", "deco", p->type); propertyStorageClass("storageClass", p->storageClass); if (p->defaultArg) property("default", p->defaultArg->toChars()); objectEnd(); } } arrayEnd(); } /* ========================================================================== */ void jsonProperties(Dsymbol *s) { if (s->isModule()) return; if (!s->isTemplateDeclaration()) // TemplateDeclaration::kind() acts weird sometimes { property("name", s->toChars()); property("kind", s->kind()); } if (s->prot().kind != PROTpublic) // TODO: How about package(names)? property("protection", protectionToChars(s->prot().kind)); if (EnumMember *em = s->isEnumMember()) { if (em->origValue) property("value", em->origValue->toChars()); } property("comment", (const char *)s->comment); property("line", "char", &s->loc); } void jsonProperties(Declaration *d) { jsonProperties((Dsymbol *)d); propertyStorageClass("storageClass", d->storage_class); property("type", "deco", d->type); // Emit originalType if it differs from type if (d->type != d->originalType && d->originalType) { const char *ostr = d->originalType->toChars(); if (d->type) { const char *tstr = d->type->toChars(); if (strcmp(tstr, ostr)) { //printf("tstr = %s, ostr = %s\n", tstr, ostr); property("originalType", ostr); } } else property("originalType", ostr); } } void jsonProperties(TemplateDeclaration *td) { jsonProperties((Dsymbol *)td); if (td->onemember && td->onemember->isCtorDeclaration()) property("name", "this"); // __ctor -> this else property("name", td->ident->toChars()); // Foo(T) -> Foo } /* ========================================================================== */ void visit(Dsymbol *) { } void visit(Module *s) { objectStart(); if (s->md) property("name", s->md->toChars()); property("kind", s->kind()); filename = s->srcfile->toChars(); property("file", filename); property("comment", (const char *)s->comment); propertyStart("members"); arrayStart(); for (size_t i = 0; i < s->members->dim; i++) { (*s->members)[i]->accept(this); } arrayEnd(); objectEnd(); } void visit(Import *s) { if (s->id == Id::object) return; objectStart(); propertyStart("name"); stringStart(); if (s->packages && s->packages->dim) { for (size_t i = 0; i < s->packages->dim; i++) { Identifier *pid = (*s->packages)[i]; stringPart(pid->toChars()); buf->writeByte('.'); } } stringPart(s->id->toChars()); stringEnd(); comma(); property("kind", s->kind()); property("comment", (const char *)s->comment); property("line", "char", &s->loc); if (s->prot().kind != PROTpublic) property("protection", protectionToChars(s->prot().kind)); if (s->aliasId) property("alias", s->aliasId->toChars()); bool hasRenamed = false; bool hasSelective = false; for (size_t i = 0; i < s->aliases.dim; i++) { // avoid empty "renamed" and "selective" sections if (hasRenamed && hasSelective) break; else if (s->aliases[i]) hasRenamed = true; else hasSelective = true; } if (hasRenamed) { // import foo : alias1 = target1; propertyStart("renamed"); objectStart(); for (size_t i = 0; i < s->aliases.dim; i++) { Identifier *name = s->names[i]; Identifier *alias = s->aliases[i]; if (alias) property(alias->toChars(), name->toChars()); } objectEnd(); } if (hasSelective) { // import foo : target1; propertyStart("selective"); arrayStart(); for (size_t i = 0; i < s->names.dim; i++) { Identifier *name = s->names[i]; if (!s->aliases[i]) item(name->toChars()); } arrayEnd(); } objectEnd(); } void visit(AttribDeclaration *d) { Dsymbols *ds = d->include(NULL, NULL); if (ds) { for (size_t i = 0; i < ds->dim; i++) { Dsymbol *s = (*ds)[i]; s->accept(this); } } } void visit(ConditionalDeclaration *d) { if (d->condition->inc) { visit((AttribDeclaration *)d); } } void visit(TypeInfoDeclaration *) {} void visit(PostBlitDeclaration *) {} void visit(Declaration *d) { objectStart(); //property("unknown", "declaration"); jsonProperties(d); objectEnd(); } void visit(AggregateDeclaration *d) { objectStart(); jsonProperties(d); ClassDeclaration *cd = d->isClassDeclaration(); if (cd) { if (cd->baseClass && cd->baseClass->ident != Id::Object) { property("base", cd->baseClass->toPrettyChars(true)); } if (cd->interfaces.length) { propertyStart("interfaces"); arrayStart(); for (size_t i = 0; i < cd->interfaces.length; i++) { BaseClass *b = cd->interfaces.ptr[i]; item(b->sym->toPrettyChars(true)); } arrayEnd(); } } if (d->members) { propertyStart("members"); arrayStart(); for (size_t i = 0; i < d->members->dim; i++) { Dsymbol *s = (*d->members)[i]; s->accept(this); } arrayEnd(); } objectEnd(); } void visit(FuncDeclaration *d) { objectStart(); jsonProperties(d); TypeFunction *tf = (TypeFunction *)d->type; if (tf && tf->ty == Tfunction) property("parameters", tf->parameters); property("endline", "endchar", &d->endloc); if (d->foverrides.dim) { propertyStart("overrides"); arrayStart(); for (size_t i = 0; i < d->foverrides.dim; i++) { FuncDeclaration *fd = d->foverrides[i]; item(fd->toPrettyChars()); } arrayEnd(); } if (d->fdrequire) { propertyStart("in"); d->fdrequire->accept(this); } if (d->fdensure) { propertyStart("out"); d->fdensure->accept(this); } objectEnd(); } void visit(TemplateDeclaration *d) { objectStart(); // TemplateDeclaration::kind returns the kind of its Aggregate onemember, if it is one property("kind", "template"); jsonProperties(d); propertyStart("parameters"); arrayStart(); for (size_t i = 0; i < d->parameters->dim; i++) { TemplateParameter *s = (*d->parameters)[i]; objectStart(); property("name", s->ident->toChars()); TemplateTypeParameter *type = s->isTemplateTypeParameter(); if (type) { if (s->isTemplateThisParameter()) property("kind", "this"); else property("kind", "type"); property("type", "deco", type->specType); property("default", "defaultDeco", type->defaultType); } TemplateValueParameter *value = s->isTemplateValueParameter(); if (value) { property("kind", "value"); property("type", "deco", value->valType); if (value->specValue) property("specValue", value->specValue->toChars()); if (value->defaultValue) property("defaultValue", value->defaultValue->toChars()); } TemplateAliasParameter *alias = s->isTemplateAliasParameter(); if (alias) { property("kind", "alias"); property("type", "deco", alias->specType); if (alias->specAlias) property("specAlias", alias->specAlias->toChars()); if (alias->defaultAlias) property("defaultAlias", alias->defaultAlias->toChars()); } TemplateTupleParameter *tuple = s->isTemplateTupleParameter(); if (tuple) { property("kind", "tuple"); } objectEnd(); } arrayEnd(); Expression *expression = d->constraint; if (expression) { property("constraint", expression->toChars()); } propertyStart("members"); arrayStart(); for (size_t i = 0; i < d->members->dim; i++) { Dsymbol *s = (*d->members)[i]; s->accept(this); } arrayEnd(); objectEnd(); } void visit(EnumDeclaration *d) { if (d->isAnonymous()) { if (d->members) { for (size_t i = 0; i < d->members->dim; i++) { Dsymbol *s = (*d->members)[i]; s->accept(this); } } return; } objectStart(); jsonProperties(d); property("base", "baseDeco", d->memtype); if (d->members) { propertyStart("members"); arrayStart(); for (size_t i = 0; i < d->members->dim; i++) { Dsymbol *s = (*d->members)[i]; s->accept(this); } arrayEnd(); } objectEnd(); } void visit(EnumMember *s) { objectStart(); jsonProperties((Dsymbol*)s); property("type", "deco", s->origType); objectEnd(); } void visit(VarDeclaration *d) { objectStart(); jsonProperties(d); if (d->_init) property("init", d->_init->toChars()); if (d->isField()) property("offset", d->offset); if (d->alignment && d->alignment != STRUCTALIGN_DEFAULT) property("align", d->alignment); objectEnd(); } void visit(TemplateMixin *d) { objectStart(); jsonProperties(d); objectEnd(); } }; void json_generate(OutBuffer *buf, Modules *modules) { ToJsonVisitor json(buf); json.arrayStart(); for (size_t i = 0; i < modules->dim; i++) { Module *m = (*modules)[i]; if (global.params.verbose) message("json gen %s", m->toChars()); m->accept(&json); } json.arrayEnd(); json.removeComma(); }