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move to state parameter and index level rather than prefix

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This also includes a small change to force output of mappings even if empty
New zig correctly detects that without any field, we end up trying to use
a constant that does not exist (this is in the generated code)
This commit is contained in:
Emil Lerch 2021-09-05 13:09:22 -07:00
parent 2d10c6e356
commit 0368c27c2c
Signed by: lobo
GPG Key ID: A7B62D657EF764F8
1 changed files with 168 additions and 105 deletions
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273
codegen/src/main.zig
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@ -68,10 +68,9 @@ fn generateServices(allocator: *std.mem.Allocator, comptime _: []const u8, file:
defer allocator.free(json); defer allocator.free(json);
const model = try smithy.parse(allocator, json); const model = try smithy.parse(allocator, json);
defer model.deinit(); defer model.deinit();
const ShapeInfo = @TypeOf(model.shapes[0]); // assume we have at least one shape var shapes = std.StringHashMap(smithy.ShapeInfo).init(allocator);
var shapes = std.StringHashMap(ShapeInfo).init(allocator);
defer shapes.deinit(); defer shapes.deinit();
var services = std.ArrayList(ShapeInfo).init(allocator); var services = std.ArrayList(smithy.ShapeInfo).init(allocator);
defer services.deinit(); defer services.deinit();
for (model.shapes) |shape| { for (model.shapes) |shape| {
try shapes.put(shape.id, shape); try shapes.put(shape.id, shape);
@ -131,7 +130,7 @@ fn generateServices(allocator: *std.mem.Allocator, comptime _: []const u8, file:
// Operations // Operations
for (service.shape.service.operations) |op| for (service.shape.service.operations) |op|
try generateOperation(allocator, shapes.get(op).?, shapes, writer, constant_name); try generateOperation(allocator, shapes.get(op).?, shapes, writer);
} }
return constant_names.toOwnedSlice(); return constant_names.toOwnedSlice();
} }
@ -155,67 +154,115 @@ fn constantName(allocator: *std.mem.Allocator, id: []const u8) ![]const u8 {
// Not a special case - just snake it // Not a special case - just snake it
return try snake.fromPascalCase(allocator, id); return try snake.fromPascalCase(allocator, id);
} }
fn generateOperation(allocator: *std.mem.Allocator, operation: smithy.ShapeInfo, shapes: anytype, writer: anytype, service: []const u8) !void {
const GenerationState = struct {
type_stack: *std.ArrayList(*const smithy.ShapeInfo),
map_fields: *std.StringArrayHashMap(std.ArrayList([]const u8)),
allocator: *std.mem.Allocator,
indent_level: u64,
all_required: bool,
};
fn outputIndent(state: GenerationState, writer: anytype) !void {
const n_chars = 4 * state.indent_level;
try writer.writeByteNTimes(' ', n_chars);
}
fn generateOperation(allocator: *std.mem.Allocator, operation: smithy.ShapeInfo, shapes: std.StringHashMap(smithy.ShapeInfo), writer: anytype) !void {
const snake_case_name = try snake.fromPascalCase(allocator, operation.name); const snake_case_name = try snake.fromPascalCase(allocator, operation.name);
defer allocator.free(snake_case_name); defer allocator.free(snake_case_name);
const prefix = " ";
var type_stack = std.ArrayList(*const smithy.ShapeInfo).init(allocator); var type_stack = std.ArrayList(*const smithy.ShapeInfo).init(allocator);
defer type_stack.deinit(); defer type_stack.deinit();
var map_fields = std.StringArrayHashMap(std.ArrayList([]const u8)).init(allocator);
defer {
for (map_fields.values()) |v|
v.deinit();
map_fields.deinit();
}
const state = GenerationState{
.type_stack = &type_stack,
.map_fields = &map_fields,
.allocator = allocator,
.indent_level = 1,
.all_required = false,
};
var child_state = state;
child_state.indent_level += 1;
// indent should start at 4 spaces here // indent should start at 4 spaces here
const operation_name = avoidReserved(snake_case_name); const operation_name = avoidReserved(snake_case_name);
try writer.print("pub const {s}: struct ", .{operation_name}); try writer.print("pub const {s}: struct ", .{operation_name});
_ = try writer.write("{\n"); _ = try writer.write("{\n");
for (operation.shape.operation.traits) |trait| { for (operation.shape.operation.traits) |trait| {
if (trait == .http) { if (trait == .http) {
_ = try writer.write(" pub const http_config = .{\n"); try outputIndent(state, writer);
try writer.print(" .method = \"{s}\",\n", .{trait.http.method}); _ = try writer.write("pub const http_config = .{\n");
try writer.print(" .uri = \"{s}\",\n", .{trait.http.uri}); try outputIndent(child_state, writer);
try writer.print(" .success_code = {d},\n", .{trait.http.code}); try writer.print(".method = \"{s}\",\n", .{trait.http.method});
_ = try writer.write(" };\n\n"); try outputIndent(child_state, writer);
try writer.print(".uri = \"{s}\",\n", .{trait.http.uri});
try outputIndent(child_state, writer);
try writer.print(".success_code = {d},\n", .{trait.http.code});
try outputIndent(state, writer);
_ = try writer.write("};\n\n");
} }
} }
try writer.print(" action_name: []const u8 = \"{s}\",\n", .{operation.name}); try outputIndent(state, writer);
_ = try writer.write(" Request: type = "); try writer.print("action_name: []const u8 = \"{s}\",\n", .{operation.name});
try outputIndent(state, writer);
_ = try writer.write("Request: type = ");
if (operation.shape.operation.input) |member| { if (operation.shape.operation.input) |member| {
try generateTypeFor(allocator, member, shapes, writer, prefix, false, &type_stack, false); try generateTypeFor(member, shapes, writer, state, false);
_ = try writer.write("\n"); _ = try writer.write("\n");
try generateMetadataFunction(service, operation_name, prefix, writer); try generateMetadataFunction(operation_name, state, writer);
} else { } else {
_ = try writer.write("struct {\n"); _ = try writer.write("struct {\n");
try generateMetadataFunction(service, operation_name, prefix, writer); try generateMetadataFunction(operation_name, state, writer);
} }
_ = try writer.write(",\n"); _ = try writer.write(",\n");
_ = try writer.write(" Response: type = "); try outputIndent(state, writer);
_ = try writer.write("Response: type = ");
if (operation.shape.operation.output) |member| { if (operation.shape.operation.output) |member| {
try generateTypeFor(allocator, member, shapes, writer, " ", false, &type_stack, true); try generateTypeFor(member, shapes, writer, state, true);
} else _ = try writer.write("struct {}"); // we want to maintain consistency with other ops } else _ = try writer.write("struct {}"); // we want to maintain consistency with other ops
_ = try writer.write(",\n"); _ = try writer.write(",\n");
if (operation.shape.operation.errors) |errors| { if (operation.shape.operation.errors) |errors| {
_ = try writer.write(" ServiceError: type = error{\n"); try outputIndent(state, writer);
_ = try writer.write("ServiceError: type = error{\n");
for (errors) |err| { for (errors) |err| {
const err_name = getErrorName(shapes.get(err).?.name); // need to remove "exception" const err_name = getErrorName(shapes.get(err).?.name); // need to remove "exception"
try writer.print(" {s},\n", .{err_name}); try outputIndent(child_state, writer);
try writer.print("{s},\n", .{err_name});
} }
_ = try writer.write(" },\n"); try outputIndent(state, writer);
_ = try writer.write("},\n");
} }
_ = try writer.write("} = .{};\n"); _ = try writer.write("} = .{};\n");
} }
fn generateMetadataFunction(_: []const u8, operation_name: []const u8, comptime prefix: []const u8, writer: anytype) !void { fn generateMetadataFunction(operation_name: []const u8, state: GenerationState, writer: anytype) !void {
// TODO: Shove these lines in here, and also the else portion // TODO: Shove these lines in here, and also the else portion
// pub fn metaInfo(self: @This()) struct { service: @TypeOf(sts), action: @TypeOf(sts.get_caller_identity) } { // pub fn metaInfo(self: @This()) struct { service: @TypeOf(sts), action: @TypeOf(sts.get_caller_identity) } {
// return .{ .service = sts, .action = sts.get_caller_identity }; // return .{ .service = sts, .action = sts.get_caller_identity };
// } // }
// We want to add a short "get my parents" function into the response // We want to add a short "get my parents" function into the response
try writer.print("{s} ", .{prefix}); var child_state = state;
child_state.indent_level += 1;
try outputIndent(child_state, writer);
_ = try writer.write("pub fn metaInfo() struct { "); _ = try writer.write("pub fn metaInfo() struct { ");
try writer.print("service_metadata: @TypeOf(service_metadata), action: @TypeOf({s})", .{operation_name}); try writer.print("service_metadata: @TypeOf(service_metadata), action: @TypeOf({s})", .{operation_name});
_ = try writer.write(" } {\n" ++ prefix ++ " return .{ .service_metadata = service_metadata, "); _ = try writer.write(" } {\n");
child_state.indent_level += 1;
try outputIndent(child_state, writer);
_ = try writer.write("return .{ .service_metadata = service_metadata, ");
try writer.print(".action = {s}", .{operation_name}); try writer.print(".action = {s}", .{operation_name});
_ = try writer.write(" };\n" ++ prefix ++ " }\n" ++ prefix ++ "}"); _ = try writer.write(" };\n");
child_state.indent_level -= 1;
try outputIndent(child_state, writer);
_ = try writer.write("}\n");
try outputIndent(state, writer);
try writer.writeByte('}');
} }
fn getErrorName(err_name: []const u8) []const u8 { fn getErrorName(err_name: []const u8) []const u8 {
if (endsWith("Exception", err_name)) if (endsWith("Exception", err_name))
@ -231,7 +278,7 @@ fn endsWith(item: []const u8, str: []const u8) bool {
return std.mem.eql(u8, item, str[str.len - item.len ..]); return std.mem.eql(u8, item, str[str.len - item.len ..]);
} }
/// return type is anyerror!void as this is a recursive function, so the compiler cannot properly infer error types /// return type is anyerror!void as this is a recursive function, so the compiler cannot properly infer error types
fn generateTypeFor(allocator: *std.mem.Allocator, shape_id: []const u8, shapes: anytype, writer: anytype, prefix: []const u8, all_required: bool, type_stack: anytype, end_structure: bool) anyerror!void { fn generateTypeFor(shape_id: []const u8, shapes: std.StringHashMap(smithy.ShapeInfo), writer: anytype, state: GenerationState, end_structure: bool) anyerror!void {
if (shapes.get(shape_id) == null) { if (shapes.get(shape_id) == null) {
std.debug.print("Shape ID not found. This is most likely a bug. Shape ID: {s}\n", .{shape_id}); std.debug.print("Shape ID not found. This is most likely a bug. Shape ID: {s}\n", .{shape_id});
return error.InvalidType; return error.InvalidType;
@ -242,7 +289,7 @@ fn generateTypeFor(allocator: *std.mem.Allocator, shape_id: []const u8, shapes:
const shape = shape_info.shape; const shape = shape_info.shape;
// Check for ourselves up the stack // Check for ourselves up the stack
var self_occurences: u8 = 0; var self_occurences: u8 = 0;
for (type_stack.items) |i| { for (state.type_stack.items) |i| {
// NOTE: shapes.get isn't providing a consistent pointer - is it allocating each time? // NOTE: shapes.get isn't providing a consistent pointer - is it allocating each time?
// we will therefore need to compare ids // we will therefore need to compare ids
if (std.mem.eql(u8, i.*.id, shape_info.id)) if (std.mem.eql(u8, i.*.id, shape_info.id))
@ -264,60 +311,69 @@ fn generateTypeFor(allocator: *std.mem.Allocator, shape_id: []const u8, shapes:
// type to properly reference. Realistically, AWS or the service // type to properly reference. Realistically, AWS or the service
// must be blocking deep recursion somewhere or this would be a great // must be blocking deep recursion somewhere or this would be a great
// DOS attack // DOS attack
try generateSimpleTypeFor("nothing", "[]const u8", writer, all_required); try generateSimpleTypeFor("nothing", "[]const u8", writer);
std.log.warn("Type cycle detected, limiting depth. Type: {s}", .{shape_id}); std.log.warn("Type cycle detected, limiting depth. Type: {s}", .{shape_id});
// std.log.info(" Type stack:\n", .{}); // std.log.info(" Type stack:\n", .{});
// for (type_stack.items) |i| // for (type_stack.items) |i|
// std.log.info(" {s}", .{i.*.id}); // std.log.info(" {s}", .{i.*.id});
return; return;
} }
try type_stack.append(&shape_info); try state.type_stack.append(&shape_info);
switch (shape) { switch (shape) {
.structure => { .structure => {
try generateComplexTypeFor(allocator, shape.structure.members, "struct", shapes, writer, prefix, all_required, type_stack); try generateComplexTypeFor(shape_id, shape.structure.members, "struct", shapes, writer, state);
if (end_structure) { if (end_structure) {
// epilog // epilog
try writer.print("{s}", .{prefix}); try outputIndent(state, writer);
_ = try writer.write("}"); _ = try writer.write("}");
} }
}, },
.uniontype => { .uniontype => {
try generateComplexTypeFor(allocator, shape.uniontype.members, "union", shapes, writer, prefix, all_required, type_stack); try generateComplexTypeFor(shape_id, shape.uniontype.members, "union", shapes, writer, state);
// epilog // epilog
try writer.print("{s}", .{prefix}); try outputIndent(state, writer);
_ = try writer.write("}"); _ = try writer.write("}");
}, },
.string => |s| try generateSimpleTypeFor(s, "[]const u8", writer, all_required), .string => |s| try generateSimpleTypeFor(s, "[]const u8", writer),
.integer => |s| try generateSimpleTypeFor(s, "i64", writer, all_required), .integer => |s| try generateSimpleTypeFor(s, "i64", writer),
.list => { .list => {
_ = try writer.write("[]"); _ = try writer.write("[]");
try generateTypeFor(allocator, shape.list.member_target, shapes, writer, prefix, all_required, type_stack, true); try generateTypeFor(shape.list.member_target, shapes, writer, state, true);
}, },
.set => { .set => {
_ = try writer.write("[]"); _ = try writer.write("[]");
try generateTypeFor(allocator, shape.set.member_target, shapes, writer, prefix, all_required, type_stack, true); try generateTypeFor(shape.set.member_target, shapes, writer, state, true);
}, },
.timestamp => |s| try generateSimpleTypeFor(s, "i64", writer, all_required), .timestamp => |s| try generateSimpleTypeFor(s, "i64", writer),
.blob => |s| try generateSimpleTypeFor(s, "[]const u8", writer, all_required), .blob => |s| try generateSimpleTypeFor(s, "[]const u8", writer),
.boolean => |s| try generateSimpleTypeFor(s, "bool", writer, all_required), .boolean => |s| try generateSimpleTypeFor(s, "bool", writer),
.double => |s| try generateSimpleTypeFor(s, "f64", writer, all_required), .double => |s| try generateSimpleTypeFor(s, "f64", writer),
.float => |s| try generateSimpleTypeFor(s, "f32", writer, all_required), .float => |s| try generateSimpleTypeFor(s, "f32", writer),
.long => |s| try generateSimpleTypeFor(s, "i64", writer, all_required), .long => |s| try generateSimpleTypeFor(s, "i64", writer),
.map => { .map => {
// TODO: We need this:
//
// pub fn jsonStringifyField(self: @This(), comptime field_name: []const u8, options: anytype, out_stream: anytype) !bool {
// if (std.mem.eql(u8, "tags", field_name))
// return try serializeMap(self.tags, self.jsonFieldNameFor("tags"), options, out_stream);
// return false;
// }
_ = try writer.write("[]struct {\n"); _ = try writer.write("[]struct {\n");
const new_prefix = try std.fmt.allocPrint(allocator, " {s}", .{prefix}); var child_state = state;
defer allocator.free(new_prefix); child_state.indent_level += 1;
try writer.print("{s} key: ", .{prefix}); try outputIndent(child_state, writer);
if (!all_required) try writeOptional(shape.map.traits, writer, null); _ = try writer.write("key: ");
try generateTypeFor(allocator, shape.map.key, shapes, writer, prefix, all_required, type_stack, true); try writeOptional(shape.map.traits, writer, null);
if (!all_required) try writeOptional(shape.map.traits, writer, " = null"); try generateTypeFor(shape.map.key, shapes, writer, state, true);
try writeOptional(shape.map.traits, writer, " = null");
_ = try writer.write(",\n"); _ = try writer.write(",\n");
try writer.print("{s} value: ", .{prefix}); try outputIndent(child_state, writer);
if (!all_required) try writeOptional(shape.map.traits, writer, null); _ = try writer.write("value: ");
try generateTypeFor(allocator, shape.map.key, shapes, writer, prefix, all_required, type_stack, true); try writeOptional(shape.map.traits, writer, null);
if (!all_required) try writeOptional(shape.map.traits, writer, " = null"); try generateTypeFor(shape.map.key, shapes, writer, state, true);
try writeOptional(shape.map.traits, writer, " = null");
_ = try writer.write(",\n"); _ = try writer.write(",\n");
_ = try writer.write(prefix); try outputIndent(state, writer);
_ = try writer.write("}"); _ = try writer.write("}");
}, },
else => { else => {
@ -326,25 +382,19 @@ fn generateTypeFor(allocator: *std.mem.Allocator, shape_id: []const u8, shapes:
// return error{UnimplementedShapeType}.UnimplementedShapeType; // return error{UnimplementedShapeType}.UnimplementedShapeType;
}, },
} }
_ = type_stack.pop(); _ = state.type_stack.pop();
} }
// fn generateSimpleTypeFor(shape: anytype, type_name: []const u8, writer: anytype, _: bool) !void { fn generateSimpleTypeFor(_: anytype, type_name: []const u8, writer: anytype) !void {
fn generateSimpleTypeFor(_: anytype, type_name: []const u8, writer: anytype, all_required: bool) !void { _ = try writer.write(type_name); // This had required stuff but the problem was elsewhere. Better to leave as function just in case
// current compiler checks unused variables, but can't handle multiple unused
// function parameters. We don't want to change the signature in case we need to work with
// these in the future, so this stupid code is only here to trick the compiler
if (all_required or !all_required)
_ = try writer.write(type_name); // This had required stuff but the problem was elsewhere. Better to leave as function just in case
} }
fn generateComplexTypeFor(shape_id: []const u8, members: []smithy.TypeMember, type_type_name: []const u8, shapes: std.StringHashMap(smithy.ShapeInfo), writer: anytype, state: GenerationState) anyerror!void {
fn generateComplexTypeFor(allocator: *std.mem.Allocator, members: []smithy.TypeMember, type_type_name: []const u8, shapes: anytype, writer: anytype, prefix: []const u8, all_required: bool, type_stack: anytype) anyerror!void { _ = shape_id;
const Mapping = struct { snake: []const u8, json: []const u8 }; const Mapping = struct { snake: []const u8, json: []const u8 };
var json_field_name_mappings = try std.ArrayList(Mapping).initCapacity(allocator, members.len); var json_field_name_mappings = try std.ArrayList(Mapping).initCapacity(state.allocator, members.len);
defer { defer {
for (json_field_name_mappings.items) |mapping| { for (json_field_name_mappings.items) |mapping|
allocator.free(mapping.snake); state.allocator.free(mapping.snake);
}
json_field_name_mappings.deinit(); json_field_name_mappings.deinit();
} }
// There is an httpQueryParams trait as well, but nobody is using it. API GW // There is an httpQueryParams trait as well, but nobody is using it. API GW
@ -353,28 +403,26 @@ fn generateComplexTypeFor(allocator: *std.mem.Allocator, members: []smithy.TypeM
// Same with httpPayload // Same with httpPayload
// //
// httpLabel is interesting - right now we just assume anything can be used - do we need to track this? // httpLabel is interesting - right now we just assume anything can be used - do we need to track this?
var http_query_mappings = try std.ArrayList(Mapping).initCapacity(allocator, members.len); var http_query_mappings = try std.ArrayList(Mapping).initCapacity(state.allocator, members.len);
defer { defer {
for (http_query_mappings.items) |mapping| { for (http_query_mappings.items) |mapping|
allocator.free(mapping.snake); state.allocator.free(mapping.snake);
}
http_query_mappings.deinit(); http_query_mappings.deinit();
} }
var http_header_mappings = try std.ArrayList(Mapping).initCapacity(allocator, members.len); var http_header_mappings = try std.ArrayList(Mapping).initCapacity(state.allocator, members.len);
defer { defer {
for (http_header_mappings.items) |mapping| { for (http_header_mappings.items) |mapping|
allocator.free(mapping.snake); state.allocator.free(mapping.snake);
}
http_header_mappings.deinit(); http_header_mappings.deinit();
} }
// prolog. We'll rely on caller to get the spacing correct here // prolog. We'll rely on caller to get the spacing correct here
_ = try writer.write(type_type_name); _ = try writer.write(type_type_name);
_ = try writer.write(" {\n"); _ = try writer.write(" {\n");
var child_state = state;
child_state.indent_level += 1;
for (members) |member| { for (members) |member| {
const new_prefix = try std.fmt.allocPrint(allocator, " {s}", .{prefix});
defer allocator.free(new_prefix);
// This is our mapping // This is our mapping
const snake_case_member = try snake.fromPascalCase(allocator, member.name); const snake_case_member = try snake.fromPascalCase(state.allocator, member.name);
// So it looks like some services have duplicate names?! Check out "httpMethod" // So it looks like some services have duplicate names?! Check out "httpMethod"
// in API Gateway. Not sure what we're supposed to do there. Checking the go // in API Gateway. Not sure what we're supposed to do there. Checking the go
// sdk, they move this particular duplicate to 'http_method' - not sure yet // sdk, they move this particular duplicate to 'http_method' - not sure yet
@ -384,20 +432,21 @@ fn generateComplexTypeFor(allocator: *std.mem.Allocator, members: []smithy.TypeM
switch (trait) { switch (trait) {
.json_name => { .json_name => {
found_name_trait = true; found_name_trait = true;
json_field_name_mappings.appendAssumeCapacity(.{ .snake = try allocator.dupe(u8, snake_case_member), .json = trait.json_name }); json_field_name_mappings.appendAssumeCapacity(.{ .snake = try state.allocator.dupe(u8, snake_case_member), .json = trait.json_name });
}, },
.http_query => http_query_mappings.appendAssumeCapacity(.{ .snake = try allocator.dupe(u8, snake_case_member), .json = trait.http_query }), .http_query => http_query_mappings.appendAssumeCapacity(.{ .snake = try state.allocator.dupe(u8, snake_case_member), .json = trait.http_query }),
.http_header => http_header_mappings.appendAssumeCapacity(.{ .snake = try allocator.dupe(u8, snake_case_member), .json = trait.http_header }), .http_header => http_header_mappings.appendAssumeCapacity(.{ .snake = try state.allocator.dupe(u8, snake_case_member), .json = trait.http_header }),
else => {}, else => {},
} }
} }
if (!found_name_trait) if (!found_name_trait)
json_field_name_mappings.appendAssumeCapacity(.{ .snake = try allocator.dupe(u8, snake_case_member), .json = member.name }); json_field_name_mappings.appendAssumeCapacity(.{ .snake = try state.allocator.dupe(u8, snake_case_member), .json = member.name });
defer allocator.free(snake_case_member); defer state.allocator.free(snake_case_member);
try writer.print("{s} {s}: ", .{ prefix, avoidReserved(snake_case_member) }); try outputIndent(child_state, writer);
if (!all_required) try writeOptional(member.traits, writer, null); try writer.print("{s}: ", .{avoidReserved(snake_case_member)});
try generateTypeFor(allocator, member.target, shapes, writer, new_prefix, all_required, type_stack, true); try writeOptional(member.traits, writer, null);
if (!all_required and !std.mem.eql(u8, "union", type_type_name)) try generateTypeFor(member.target, shapes, writer, child_state, true);
if (!std.mem.eql(u8, "union", type_type_name))
try writeOptional(member.traits, writer, " = null"); try writeOptional(member.traits, writer, " = null");
_ = try writer.write(",\n"); _ = try writer.write(",\n");
} }
@ -409,12 +458,10 @@ fn generateComplexTypeFor(allocator: *std.mem.Allocator, members: []smithy.TypeM
// .marker = "Marker", // .marker = "Marker",
// .max_items = "MaxItems", // .max_items = "MaxItems",
// }; // };
var constprefix = try std.fmt.allocPrint(allocator, "{s} ", .{prefix});
defer allocator.free(constprefix);
if (http_query_mappings.items.len > 0) _ = try writer.write("\n"); if (http_query_mappings.items.len > 0) _ = try writer.write("\n");
try writeMappings(constprefix, "pub ", "http_query", http_query_mappings, writer); try writeMappings(child_state, "pub ", "http_query", http_query_mappings, false, writer);
if (http_query_mappings.items.len > 0 and http_header_mappings.items.len > 0) _ = try writer.write("\n"); if (http_query_mappings.items.len > 0 and http_header_mappings.items.len > 0) _ = try writer.write("\n");
try writeMappings(constprefix, "pub ", "http_header", http_header_mappings, writer); try writeMappings(child_state, "pub ", "http_header", http_header_mappings, false, writer);
// Add in json mappings. The function looks like this: // Add in json mappings. The function looks like this:
// //
@ -426,23 +473,39 @@ fn generateComplexTypeFor(allocator: *std.mem.Allocator, members: []smithy.TypeM
// return @field(mappings, field_name); // return @field(mappings, field_name);
// } // }
// //
var fieldnameprefix = try std.fmt.allocPrint(allocator, "{s} ", .{prefix}); try writer.writeByte('\n');
defer allocator.free(fieldnameprefix); try outputIndent(child_state, writer);
try writer.print("\n{s} pub fn jsonFieldNameFor(_: @This(), comptime field_name: []const u8) []const u8 ", .{prefix}); _ = try writer.write("pub fn jsonFieldNameFor(_: @This(), comptime field_name: []const u8) []const u8 ");
_ = try writer.write("{\n"); _ = try writer.write("{\n");
try writeMappings(fieldnameprefix, "", "mappings", json_field_name_mappings, writer); var grandchild_state = child_state;
try writer.print("{s} return @field(mappings, field_name);\n{s}", .{ prefix, prefix }); grandchild_state.indent_level += 1;
_ = try writer.write(" }\n"); // We need to force output here becaseu we're referencing the field in the return statement below
try writeMappings(grandchild_state, "", "mappings", json_field_name_mappings, true, writer);
try outputIndent(grandchild_state, writer);
_ = try writer.write("return @field(mappings, field_name);\n");
try outputIndent(child_state, writer);
_ = try writer.write("}\n");
// TODO: Deal with the jsonStringifyField stuff
} }
fn writeMappings(prefix: []const u8, @"pub": []const u8, mapping_name: []const u8, mappings: anytype, writer: anytype) !void { fn writeMappings(state: GenerationState, @"pub": []const u8, mapping_name: []const u8, mappings: anytype, force_output: bool, writer: anytype) !void {
if (mappings.items.len == 0) return; if (mappings.items.len == 0 and !force_output) return;
try writer.print("{s}{s}const {s} = .", .{ prefix, @"pub", mapping_name }); try outputIndent(state, writer);
_ = try writer.write("{\n"); if (mappings.items.len == 0) {
for (mappings.items) |mapping| { try writer.print("{s}const {s} = ", .{ @"pub", mapping_name });
try writer.print("{s} .{s} = \"{s}\",\n", .{ prefix, avoidReserved(mapping.snake), mapping.json }); _ = try writer.write(".{};\n");
return;
} }
_ = try writer.write(prefix); try writer.print("{s}const {s} = .", .{ @"pub", mapping_name });
_ = try writer.write("{\n");
var child_state = state;
child_state.indent_level += 1;
for (mappings.items) |mapping| {
try outputIndent(child_state, writer);
try writer.print(".{s} = \"{s}\",\n", .{ avoidReserved(mapping.snake), mapping.json });
}
try outputIndent(state, writer);
_ = try writer.write("};\n"); _ = try writer.write("};\n");
} }