diff options
Diffstat (limited to 'python/sip/sipgen/export.c')
| -rw-r--r-- | python/sip/sipgen/export.c | 998 |
1 files changed, 998 insertions, 0 deletions
diff --git a/python/sip/sipgen/export.c b/python/sip/sipgen/export.c new file mode 100644 index 00000000..a6e62523 --- /dev/null +++ b/python/sip/sipgen/export.c @@ -0,0 +1,998 @@ +/* + * The XML and API file generator module for SIP. + * + * Copyright (c) 2007 + * Riverbank Computing Limited <info@riverbankcomputing.co.uk> + * + * This file is part of SIP. + * + * This copy of SIP is licensed for use under the terms of the SIP License + * Agreement. See the file LICENSE for more details. + * + * SIP is supplied WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. + */ + + +#include <stdio.h> + +#include "sip.h" + + +#define XML_VERSION_NR 0 /* The schema version number. */ + + +static void apiEnums(sipSpec *pt, classDef *scope, FILE *fp); +static void apiVars(sipSpec *pt, classDef *scope, FILE *fp); +static int apiCtor(sipSpec *pt, classDef *scope, ctorDef *ct, int sec, + FILE *fp); +static int apiOverload(sipSpec *pt, classDef *scope, overDef *od, int sec, + FILE *fp); +static int apiArgument(argDef *ad, int out, int need_comma, int sec, FILE *fp); +static void xmlClass(sipSpec *pt, classDef *cd, FILE *fp); +static void xmlEnums(sipSpec *pt, classDef *scope, int indent, FILE *fp); +static void xmlVars(sipSpec *pt, classDef *scope, int indent, FILE *fp); +static void xmlFunction(classDef *scope, memberDef *md, overDef *oloads, + int indent, FILE *fp); +static int xmlCtor(classDef *scope, ctorDef *ct, int sec, int indent, FILE *fp); +static int xmlOverload(classDef *scope, memberDef *md, overDef *od, + classDef *xtnds, int stat, int sec, int indent, FILE *fp); +static void xmlCppSignature(FILE *fp, overDef *od); +static void xmlArgument(argDef *ad, const char *dir, int res_xfer, int sec, + int indent, FILE *fp); +static void xmlType(argDef *ad, int sec, FILE *fp); +static void xmlIndent(int indent, FILE *fp); +static const char *dirAttribute(argDef *ad); +static void exportDefaultValue(argDef *ad, FILE *fp); +static const char *pyType(argDef *ad, int sec, classDef **scope); + + +/* + * Generate the API file. + */ +void generateAPI(sipSpec *pt, const char *apiFile) +{ + overDef *od; + classDef *cd; + FILE *fp; + + /* Generate the file. */ + if ((fp = fopen(apiFile, "w")) == NULL) + fatal("Unable to create file \"%s\"\n", apiFile); + + apiEnums(pt, NULL, fp); + apiVars(pt, NULL, fp); + + for (od = pt->overs; od != NULL; od = od->next) + { + if (od->common->module != pt->module) + continue; + + if (od->common->slot != no_slot) + continue; + + if (apiOverload(pt, NULL, od, FALSE, fp)) + apiOverload(pt, NULL, od, TRUE, fp); + } + + for (cd = pt->classes; cd != NULL; cd = cd->next) + { + ctorDef *ct; + + if (cd->iff->module != pt->module) + continue; + + if (isExternal(cd)) + continue; + + apiEnums(pt, cd, fp); + apiVars(pt, cd, fp); + + for (ct = cd->ctors; ct != NULL; ct = ct->next) + { + if (isPrivateCtor(ct)) + continue; + + if (apiCtor(pt, cd, ct, FALSE, fp)) + apiCtor(pt, cd, ct, TRUE, fp); + } + + for (od = cd->overs; od != NULL; od = od->next) + { + if (isPrivate(od)) + continue; + + if (od->common->slot != no_slot) + continue; + + if (apiOverload(pt, cd, od, FALSE, fp)) + apiOverload(pt, cd, od, TRUE, fp); + } + } + + fclose(fp); +} + + +/* + * Generate an API ctor. + */ +static int apiCtor(sipSpec *pt, classDef *scope, ctorDef *ct, int sec, + FILE *fp) +{ + int need_sec = FALSE, need_comma, a; + + /* Do the callable type form. */ + fprintf(fp, "%s.", pt->module->name); + prScopedPythonName(fp, scope->ecd, scope->pyname); + fprintf(fp, "("); + + need_comma = FALSE; + + for (a = 0; a < ct->pysig.nrArgs; ++a) + { + argDef *ad = &ct->pysig.args[a]; + + need_comma = apiArgument(ad, FALSE, need_comma, sec, fp); + + if (ad->atype == rxcon_type || ad->atype == rxdis_type) + need_sec = TRUE; + } + + fprintf(fp, ")\n"); + + /* Do the call __init__ form. */ + fprintf(fp, "%s.", pt->module->name); + prScopedPythonName(fp, scope->ecd, scope->pyname); + fprintf(fp, ".__init__(self"); + + for (a = 0; a < ct->pysig.nrArgs; ++a) + apiArgument(&ct->pysig.args[a], FALSE, TRUE, sec, fp); + + fprintf(fp, ")\n"); + + return need_sec; +} + + +/* + * Generate the APIs for all the enums in a scope. + */ +static void apiEnums(sipSpec *pt, classDef *scope, FILE *fp) +{ + enumDef *ed; + + for (ed = pt->enums; ed != NULL; ed = ed->next) + { + enumMemberDef *emd; + + if (ed->module != pt->module) + continue; + + if (ed->ecd != scope) + continue; + + if (ed->pyname != NULL) + { + fprintf(fp, "%s.", pt->module->name); + prScopedPythonName(fp, ed->ecd, ed->pyname->text); + fprintf(fp, "\n"); + } + + for (emd = ed->members; emd != NULL; emd = emd->next) + { + fprintf(fp, "%s.", pt->module->name); + prScopedPythonName(fp, ed->ecd, emd->pyname->text); + fprintf(fp, "\n"); + } + } +} + + +/* + * Generate the APIs for all the variables in a scope. + */ +static void apiVars(sipSpec *pt, classDef *scope, FILE *fp) +{ + varDef *vd; + + for (vd = pt->vars; vd != NULL; vd = vd->next) + { + if (vd->module != pt->module) + continue; + + if (vd->ecd != scope) + continue; + + fprintf(fp, "%s.", pt->module->name); + prScopedPythonName(fp, vd->ecd, vd->pyname->text); + fprintf(fp, "\n"); + } +} + + +/* + * Generate a single API overload. + */ +static int apiOverload(sipSpec *pt, classDef *scope, overDef *od, int sec, + FILE *fp) +{ + int need_sec = FALSE, need_comma = FALSE, is_res, nr_out, a; + + fprintf(fp, "%s.", pt->module->name); + prScopedPythonName(fp, scope, od->common->pyname->text); + fprintf(fp, "("); + + if (scope != NULL && scope->iff->type != namespace_iface && !isStatic(od)) + { + fprintf(fp, "self"); + need_comma = TRUE; + } + + nr_out = 0; + + for (a = 0; a < od->pysig.nrArgs; ++a) + { + argDef *ad = &od->pysig.args[a]; + + if (isOutArg(ad)) + ++nr_out; + + if (!isInArg(ad)) + continue; + + need_comma = apiArgument(ad, FALSE, need_comma, sec, fp); + + if (ad->atype == rxcon_type || ad->atype == rxdis_type) + need_sec = TRUE; + } + + fprintf(fp, ")"); + + is_res = (od->pysig.result.atype != void_type || od->pysig.result.nrderefs != 0); + + if (is_res || nr_out > 0) + { + fprintf(fp, " -> "); + + if ((is_res && nr_out > 0) || nr_out > 1) + fprintf(fp, "("); + + if (is_res) + need_comma = apiArgument(&od->pysig.result, TRUE, FALSE, sec, fp); + else + need_comma = FALSE; + + for (a = 0; a < od->pysig.nrArgs; ++a) + { + argDef *ad = &od->pysig.args[a]; + + if (!isOutArg(ad)) + continue; + + need_comma = apiArgument(ad, TRUE, need_comma, sec, fp); + } + + if ((is_res && nr_out > 0) || nr_out > 1) + fprintf(fp, ")"); + } + + fprintf(fp, "\n"); + + return need_sec; +} + + +/* + * Generate the API for an argument. + */ +static int apiArgument(argDef *ad, int out, int need_comma, int sec, FILE *fp) +{ + const char *tname; + classDef *tscope; + + if (isArraySize(ad)) + return need_comma; + + if (sec && (ad->atype == slotcon_type || ad->atype == slotdis_type)) + return need_comma; + + if ((tname = pyType(ad, sec, &tscope)) == NULL) + return need_comma; + + if (need_comma) + fprintf(fp, ", "); + + prScopedPythonName(fp, tscope, tname); + + if (ad->name != NULL) + fprintf(fp, " %s", ad->name); + + /* + * Handle the default value, but ignore it if it is an output only + * argument. + */ + if (ad->defval && !out) + { + fprintf(fp, "="); + prcode(fp, "%M"); + exportDefaultValue(ad, fp); + prcode(fp, "%M"); + } + + return TRUE; +} + + +/* + * Generate the XML export file. + */ +void generateXML(sipSpec *pt, const char *xmlFile) +{ + FILE *fp; + classDef *cd; + memberDef *md; + + if ((fp = fopen(xmlFile, "w")) == NULL) + fatal("Unable to create file \"%s\"\n", xmlFile); + + fprintf(fp, "<?xml version=\"1.0\"?>\n"); + fprintf(fp, "<Module version=\"%u\" name=\"%s\">\n", + XML_VERSION_NR, pt->module->name); + + /* + * Note that we don't yet handle mapped types, templates or exceptions. + */ + + for (cd = pt->classes; cd != NULL; cd = cd->next) + { + if (cd->iff->module != pt->module) + continue; + + if (isExternal(cd)) + continue; + + xmlClass(pt, cd, fp); + } + + for (cd = pt->proxies; cd != NULL; cd = cd->next) + xmlClass(pt, cd, fp); + + xmlEnums(pt, NULL, 1, fp); + xmlVars(pt, NULL, 1, fp); + + for (md = pt->othfuncs; md != NULL; md = md->next) + { + if (md->module != pt->module) + continue; + + xmlFunction(NULL, md, pt->overs, 1, fp); + } + + fprintf(fp, "</Module>\n"); + + fclose(fp); +} + + +/* + * Generate the XML for a class. + */ +static void xmlClass(sipSpec *pt, classDef *cd, FILE *fp) +{ + int indent = 1; + ctorDef *ct; + memberDef *md; + + if (isOpaque(cd)) + { + xmlIndent(indent, fp); + fprintf(fp, "<OpaqueClass name=\"", cd->pyname); + prScopedPythonName(fp, cd->ecd, cd->pyname); + fprintf(fp, "\"/>\n"); + + return; + } + + xmlIndent(indent++, fp); + fprintf(fp, "<Class name=\"", cd->pyname); + prScopedPythonName(fp, cd->ecd, cd->pyname); + fprintf(fp, "\""); + + if (cd->convtocode != NULL) + fprintf(fp, " convert=\"1\""); + + if (cd->real != NULL) + fprintf(fp, " extends=\"%s\"", cd->real->iff->module->name); + + if (cd->supers != NULL) + { + classList *cl; + + fprintf(fp, " inherits=\""); + + for (cl = cd->supers; cl != NULL; cl = cl->next) + { + if (cl != cd->supers) + fprintf(fp, " "); + + prScopedPythonName(fp, cl->cd->ecd, cl->cd->pyname); + } + + fprintf(fp, "\""); + } + + fprintf(fp, ">\n"); + + xmlEnums(pt, cd, indent, fp); + xmlVars(pt, cd, indent, fp); + + for (ct = cd->ctors; ct != NULL; ct = ct->next) + { + if (isPrivateCtor(ct)) + continue; + + if (xmlCtor(cd, ct, FALSE, indent, fp)) + xmlCtor(cd, ct, TRUE, indent, fp); + } + + for (md = cd->members; md != NULL; md = md->next) + xmlFunction(cd, md, cd->overs, indent, fp); + + xmlIndent(--indent, fp); + fprintf(fp, "</Class>\n"); +} + + +/* + * Generate the XML for all the enums in a scope. + */ +static void xmlEnums(sipSpec *pt, classDef *scope, int indent, FILE *fp) +{ + enumDef *ed; + + for (ed = pt->enums; ed != NULL; ed = ed->next) + { + if (ed->module != pt->module) + continue; + + if (ed->ecd != scope) + continue; + + if (ed->pyname != NULL) + { + enumMemberDef *emd; + + xmlIndent(indent++, fp); + fprintf(fp, "<Enum name=\""); + prScopedPythonName(fp, ed->ecd, ed->pyname->text); + fprintf(fp, "\">\n"); + + for (emd = ed->members; emd != NULL; emd = emd->next) + { + xmlIndent(indent, fp); + fprintf(fp, "<EnumMember name=\""); + prScopedPythonName(fp, ed->ecd, emd->pyname->text); + fprintf(fp, "\"/>\n"); + } + + xmlIndent(--indent, fp); + fprintf(fp, "</Enum>\n"); + } + else + { + enumMemberDef *emd; + + for (emd = ed->members; emd != NULL; emd = emd->next) + { + xmlIndent(indent, fp); + fprintf(fp, "<Member name=\""); + prScopedPythonName(fp, ed->ecd, emd->pyname->text); + fprintf(fp, "\" const=\"1\" typename=\"int\"/>\n"); + } + } + } +} + + +/* + * Generate the XML for all the variables in a scope. + */ +static void xmlVars(sipSpec *pt, classDef *scope, int indent, FILE *fp) +{ + varDef *vd; + + for (vd = pt->vars; vd != NULL; vd = vd->next) + { + if (vd->module != pt->module) + continue; + + if (vd->ecd != scope) + continue; + + xmlIndent(indent, fp); + fprintf(fp, "<Member name=\""); + prScopedPythonName(fp, vd->ecd, vd->pyname->text); + fprintf(fp, "\""); + + if (isConstArg(&vd->type) || scope == NULL) + fprintf(fp, " const=\"1\""); + + if (isStaticVar(vd)) + fprintf(fp, " static=\"1\""); + + xmlType(&vd->type, FALSE, fp); + fprintf(fp, "/>\n"); + } +} + + +/* + * Generate the XML for a ctor. + */ +static int xmlCtor(classDef *scope, ctorDef *ct, int sec, int indent, FILE *fp) +{ + int a, need_sec; + + xmlIndent(indent++, fp); + fprintf(fp, "<Function name=\""); + prScopedPythonName(fp, scope, "__init__"); + fprintf(fp, "\""); + + /* Handle the trivial case. */ + if (ct->pysig.nrArgs == 0) + { + fprintf(fp, "/>\n"); + return FALSE; + } + + fprintf(fp, ">\n"); + + need_sec = FALSE; + + for (a = 0; a < ct->pysig.nrArgs; ++a) + { + argDef *ad = &ct->pysig.args[a]; + + xmlArgument(ad, dirAttribute(ad), FALSE, sec, indent, fp); + + if (ad->atype == rxcon_type || ad->atype == rxdis_type) + need_sec = TRUE; + } + + xmlIndent(--indent, fp); + fprintf(fp, "</Function>\n"); + + return need_sec; +} + + +/* + * Generate the XML for a function. + */ +static void xmlFunction(classDef *scope, memberDef *md, overDef *oloads, + int indent, FILE *fp) +{ + overDef *od; + + for (od = oloads; od != NULL; od = od->next) + { + int isstat; + classDef *xtnds; + + if (od->common != md) + continue; + + if (isPrivate(od)) + continue; + + if (isSignal(od)) + { + xmlIndent(indent, fp); + fprintf(fp, "<Signal name=\""); + prScopedPythonName(fp, scope, md->pyname->text); + fprintf(fp, "\" sig=\""); + xmlCppSignature(fp, od); + fprintf(fp, "\"/>\n", md->pyname->text); + + continue; + } + + xtnds = NULL; + isstat = (scope == NULL || scope->iff->type == namespace_iface || isStatic(od)); + + if (scope == NULL && md->slot != no_slot && od->pysig.args[0].atype == class_type) + { + xtnds = od->pysig.args[0].u.cd; + isstat = FALSE; + } + + if (xmlOverload(scope, md, od, xtnds, isstat, FALSE, indent, fp)) + xmlOverload(scope, md, od, xtnds, isstat, TRUE, indent, fp); + } +} + + +/* + * Generate the XML for an overload. + */ +static int xmlOverload(classDef *scope, memberDef *md, overDef *od, + classDef *xtnds, int stat, int sec, int indent, FILE *fp) +{ + int a, need_sec, no_res; + + xmlIndent(indent++, fp); + fprintf(fp, "<Function name=\""); + prScopedPythonName(fp, scope, md->pyname->text); + fprintf(fp, "\""); + + if (isAbstract(od)) + fprintf(fp, " abstract=\"1\""); + + if (stat) + fprintf(fp, " static=\"1\""); + + if (isSlot(od)) + { + fprintf(fp, " slot=\""); + xmlCppSignature(fp, od); + fprintf(fp, "\""); + } + + if (xtnds != NULL) + { + fprintf(fp, " extends=\""); + prScopedPythonName(fp, xtnds->ecd, xtnds->pyname); + fprintf(fp, "\""); + } + + no_res = (od->pysig.result.atype == void_type && od->pysig.result.nrderefs == 0); + + /* Handle the trivial case. */ + if (no_res && od->pysig.nrArgs == 0) + { + fprintf(fp, "/>\n"); + return FALSE; + } + + fprintf(fp, ">\n"); + + if (!no_res) + xmlArgument(&od->pysig.result, "out", isResultTransferredBack(od), FALSE, indent, fp); + + need_sec = FALSE; + + for (a = 0; a < od->pysig.nrArgs; ++a) + { + argDef *ad = &od->pysig.args[a]; + + /* Ignore the first argument of number slots. */ + if (isNumberSlot(md) && a == 0 && od->pysig.nrArgs == 2) + continue; + + xmlArgument(ad, dirAttribute(ad), FALSE, sec, indent, fp); + + if (ad->atype == rxcon_type || ad->atype == rxdis_type) + need_sec = TRUE; + } + + xmlIndent(--indent, fp); + fprintf(fp, "</Function>\n"); + + return need_sec; +} + + +/* + * Generate the XML for a C++ signature. + */ +static void xmlCppSignature(FILE *fp, overDef *od) +{ + prcode(fp, "%M"); + prOverloadDecl(fp, od, TRUE); + prcode(fp, "%M"); +} + + +/* + * Convert an arguments direction to an XML attribute value. + */ +static const char *dirAttribute(argDef *ad) +{ + if (isInArg(ad)) + { + if (isOutArg(ad)) + return "inout"; + + return NULL; + } + + return "out"; +} + + +/* + * Generate the XML for an argument. + */ +static void xmlArgument(argDef *ad, const char *dir, int res_xfer, int sec, + int indent, FILE *fp) +{ + if (isArraySize(ad)) + return; + + if (sec && (ad->atype == slotcon_type || ad->atype == slotdis_type)) + return; + + xmlIndent(indent, fp); + fprintf(fp, "<Argument"); + xmlType(ad, sec, fp); + + if (dir != NULL) + fprintf(fp, " dir=\"%s\"", dir); + + if (isAllowNone(ad)) + fprintf(fp, " allownone=\"1\""); + + if (isTransferred(ad)) + fprintf(fp, " transfer=\"to\""); + else if (isThisTransferred(ad)) + fprintf(fp, " transfer=\"this\""); + else if (res_xfer || isTransferredBack(ad)) + fprintf(fp, " transfer=\"back\""); + + /* + * Handle the default value, but ignore it if it is an output only + * argument. + */ + if (ad->defval && (dir == NULL || strcmp(dir, "out") != 0)) + { + prcode(fp, " default=\"%M"); + exportDefaultValue(ad, fp); + prcode(fp, "%M\""); + } + + fprintf(fp, "/>\n"); +} + + +/* + * Generate the XML for a type. + */ +static void xmlType(argDef *ad, int sec, FILE *fp) +{ + const char *type_type = NULL, *type_name; + classDef *type_scope; + + fprintf(fp, " typename=\""); + + switch (ad->atype) + { + case class_type: + type_type = (isOpaque(ad->u.cd) ? "opaque" : "class"); + break; + + case enum_type: + if (ad->u.ed->pyname != NULL) + type_type = "enum"; + break; + + case rxcon_type: + case rxdis_type: + if (!sec) + type_type = "class"; + break; + + case qobject_type: + type_type = "class"; + break; + + case slotcon_type: + case slotdis_type: + { + int a; + + prcode(fp, "SLOT("); + + for (a = 0; a < ad->u.sa->nrArgs; ++a) + { + if (a > 0) + prcode(fp, ", "); + + prcode(fp, "%M%B%M", &ad->u.sa->args[a]); + } + + prcode(fp, ")"); + } + + break; + + case mapped_type: + prcode(fp, "%M%B%M", &ad->u.mtd->type); + type_type = "mappedtype"; + break; + } + + if ((type_name = pyType(ad, sec, &type_scope)) != NULL) + prScopedPythonName(fp, type_scope, type_name); + + fprintf(fp, "\""); + + if (type_type != NULL) + fprintf(fp, " typetype=\"%s\"", type_type); + + if (ad->name != NULL) + fprintf(fp, " name=\"%s\"", ad->name); +} + + +/* + * Generate the indentation for a line. + */ +static void xmlIndent(int indent, FILE *fp) +{ + while (indent-- > 0) + fprintf(fp, " "); +} + + +/* + * Export the default value of an argument. + */ +static void exportDefaultValue(argDef *ad, FILE *fp) +{ + /* Translate some special cases. */ + if (ad->defval->next == NULL && ad->defval->vtype == numeric_value) + { + if (ad->nrderefs > 0 && ad->defval->u.vnum == 0) + { + prcode(fp, "None"); + return; + } + + if (ad->atype == bool_type || ad->atype == cbool_type) + { + prcode(fp, ad->defval->u.vnum ? "True" : "False"); + return; + } + } + + generateExpression(ad->defval, fp); +} + + +/* + * Get the Python representation of a type. + */ +static const char *pyType(argDef *ad, int sec, classDef **scope) +{ + const char *type_name; + + *scope = NULL; + + switch (ad->atype) + { + case class_type: + type_name = ad->u.cd->pyname; + *scope = ad->u.cd->ecd; + break; + + case struct_type: + case void_type: + type_name = "sip.voidptr"; + break; + + case enum_type: + if (ad->u.ed->pyname != NULL) + { + type_name = ad->u.ed->pyname->text; + *scope = ad->u.ed->ecd; + } + else + type_name = "int"; + break; + + case signal_type: + type_name = "SIGNAL()"; + break; + + case slot_type: + type_name = "SLOT()"; + break; + + case rxcon_type: + case rxdis_type: + if (sec) + type_name = "callable"; + else + type_name = "QObject"; + + break; + + case qobject_type: + type_name = "QObject"; + break; + + case ustring_type: + case string_type: + case sstring_type: + case wstring_type: + if (ad->nrderefs > 0) + type_name = "str"; + else + type_name = "char"; + + break; + + case short_type: + case int_type: + case cint_type: + type_name = "int"; + break; + + case ushort_type: + case uint_type: + case ulong_type: + case ulonglong_type: + type_name = "unsigned long"; + break; + + case long_type: + case longlong_type: + type_name = "long"; + break; + + case float_type: + case cfloat_type: + case double_type: + case cdouble_type: + type_name = "float"; + break; + + case bool_type: + case cbool_type: + type_name = "bool"; + break; + + case pyobject_type: + type_name = "object"; + break; + + case pytuple_type: + type_name = "tuple"; + break; + + case pylist_type: + type_name = "list"; + break; + + case pydict_type: + type_name = "dict"; + break; + + case pycallable_type: + type_name = "callable"; + break; + + case pyslice_type: + type_name = "slice"; + break; + + case pytype_type: + type_name = "type"; + break; + + case ellipsis_type: + type_name = "..."; + break; + + case anyslot_type: + /* Need to check if this is enough. */ + type_name = "SLOT()"; + break; + + default: + type_name = NULL; + } + + return type_name; +} |