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terralib.lua
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terralib.lua
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-- See Copyright Notice in ../LICENSE.txt
local ffi = require("ffi")
local asdl = require("asdl")
local List = asdl.List
-- LINE COVERAGE INFORMATION, must run test script with luajit and not terra to avoid overwriting coverage with old version
if false then
local converageloader = loadfile("coverageinfo.lua")
local linetable = converageloader and converageloader() or {}
local function dumplineinfo()
local F = io.open("coverageinfo.lua","w")
F:write("return {\n")
for k,v in pairs(linetable) do
F:write("["..k.."] = "..v..";\n")
end
F:write("}\n")
F:close()
end
local function debughook(event)
local info = debug.getinfo(2,"Sl")
if info.short_src:match("terralib%.lua") then
linetable[info.currentline] = linetable[info.currentline] or 0
linetable[info.currentline] = linetable[info.currentline] + 1
end
end
debug.sethook(debughook,"l")
-- make a fake ffi object that causes dumplineinfo to be called when
-- the lua state is removed
ffi.cdef [[
typedef struct {} __linecoverage;
]]
ffi.metatype("__linecoverage", { __gc = dumplineinfo } )
_G[{}] = ffi.new("__linecoverage")
end
setmetatable(terra.kinds, { __index = function(self,idx)
error("unknown kind accessed: "..tostring(idx))
end })
local T = asdl.NewContext()
T:Extern("TypeOrLuaExpression", function(t) return T.Type:isclassof(t) or T.luaexpression:isclassof(t) end)
T:Define [[
ident = escapedident(luaexpression expression) # removed during specialization
| namedident(string value)
| labelident(Label value)
field = recfield(ident key, tree value)
| listfield(tree value)
structbody = structentry(string key, luaexpression type)
| structlist(structbody* entries)
param = unevaluatedparam(ident name, luaexpression? type)
| concreteparam(Type? type, string name, Symbol symbol,boolean isnamed)
structdef = (luaexpression? metatype, structlist records)
attr = (boolean nontemporal, number? alignment, boolean isvolatile)
fenceattr = (string? syncscope, string ordering)
cmpxchgattr = (string? syncscope, string success_ordering, string failure_ordering, number? alignment, boolean isvolatile, boolean isweak)
atomicattr = (string? syncscope, string ordering, number? alignment, boolean isvolatile)
Symbol = (Type type, string displayname, number id)
Label = (string displayname, number id)
tree =
# trees that are introduced in parsing and are ...
# removed during specialization
luaexpression(function expression, boolean isexpression)
# removed during typechecking
| constructoru(field* records) #untyped version
| selectu(tree value, ident field) #untyped version
| method(tree value,ident name,tree* arguments)
| statlist(tree* statements)
| fornumu(param variable, tree initial, tree limit, tree? step,block body) #untyped version
| defvar(param* variables, boolean hasinit, tree* initializers)
| forlist(param* variables, tree iterator, block body)
| functiondefu(param* parameters, boolean is_varargs, TypeOrLuaExpression? returntype, block body)
# introduced temporarily during specialization/typing, but removed after typing
| luaobject(any value)
| setteru(function setter) # temporary node introduced and removed during typechecking to handle __update and __setfield
| quote(tree tree)
# trees that exist after typechecking and handled by the backend:
| var(string name, Symbol? symbol) #symbol is added during specialization
| literal(any? value, Type type)
| index(tree value,tree index)
| apply(tree value, tree* arguments)
| letin(tree* statements, tree* expressions, boolean hasstatements)
| operator(string operator, tree* operands)
| block(tree* statements)
| assignment(tree* lhs,tree* rhs)
| gotostat(ident label)
| breakstat()
| label(ident label)
| whilestat(tree condition, block body)
| repeatstat(tree* statements, tree condition)
| fornum(allocvar variable, tree initial, tree limit, tree? step, block body)
| ifstat(ifbranch* branches, block? orelse)
| switchstat(tree condition, tree* cases, block? ordefault)
| defer(tree expression)
| select(tree value, number index, string fieldname) # typed version, fieldname for debugging
| globalvalueref(string name, globalvalue value)
| constant(cdata value, Type type)
| attrstore(tree address, tree value, attr attrs)
| attrload(tree address, attr attrs)
| fence(fenceattr attrs)
| cmpxchg(tree address, tree cmp, tree new, cmpxchgattr attrs)
| atomicrmw(string operator, tree address, tree value, atomicattr attrs)
| debuginfo(string customfilename, number customlinenumber)
| arrayconstructor(Type? oftype,tree* expressions)
| vectorconstructor(Type? oftype,tree* expressions)
| sizeof(Type oftype)
| inlineasm(Type type, string asm, boolean volatile, string constraints, tree* arguments)
| cast(Type to, tree expression)
| allocvar(string name, Symbol symbol)
| structcast(allocvar structvariable, tree expression, storelocation* entries)
| constructor(tree* expressions)
| returnstat(tree expression)
| setter(allocvar rhs, tree setter) # handles custom assignment behavior, real rhs is first stored in 'rhs' and then the 'setter' expression uses it
# special purpose nodes, they only occur in specific locations, but are considered trees because they can contain typed trees
| ifbranch(tree condition, block body)
| switchcase(tree condition, block body)
| storelocation(number index, tree value) # for struct cast, value uses structvariable
Type = primitive(string type, number bytes, boolean signed)
| pointer(Type type, number addressspace) unique
| vector(Type type, number N) unique
| array(Type type, number N) unique
| functype(Type* parameters, Type returntype, boolean isvararg) unique
| struct(string name)
| niltype #the type of the singleton nil (implicitly convertable to any pointer type)
| opaque #an type of unknown layout used with a pointer (&opaque) to point to data of an unknown type (i.e. void*)
| error #used in compiler to squelch errors
| luaobjecttype #type of expressions that hold temporary luaobjects in the compiler, removed during typechecking
labelstate = undefinedlabel(gotostat * gotos, table* positions) #undefined label with gotos pointing to it
| definedlabel(table position, label label) #defined label with position and label object defining it
definition = functiondef(string? name, functype type, allocvar* parameters, boolean is_varargs, block body, table labeldepths, globalvalue* globalsused)
| functionextern(string? name, functype type)
globalvalue = terrafunction(definition? definition)
| globalvariable(tree? initializer, number addressspace, boolean extern, boolean constant)
attributes(string name, Type type, table anchor)
overloadedterrafunction = (string name, terrafunction* definitions)
]]
terra.irtypes = T
T.var.lvalue = true
function T.allocvar:settype(typ)
assert(T.Type:isclassof(typ))
self.type, self.symbol.type = typ,typ
end
-- temporary until we replace with asdl
local tokens = setmetatable({},{__index = function(self,idx) return idx end })
terra.isverbose = 0 --set by C api
local function dbprint(level,...)
if terra.isverbose >= level then
print(...)
end
end
local function dbprintraw(level,obj)
if terra.isverbose >= level then
terra.printraw(obj)
end
end
--debug wrapper around cdef function to print out all the things being defined
local oldcdef = ffi.cdef
ffi.cdef = function(...)
dbprint(2,...)
return oldcdef(...)
end
-- TREE
function T.tree:is(value)
return self.kind == value
end
function terra.printraw(self)
local function header(t)
local mt = getmetatable(t)
if type(t) == "table" and mt and type(mt.__fields) == "table" then
return t.kind or tostring(mt)
else return tostring(t) end
end
local function isList(t)
return type(t) == "table" and #t ~= 0
end
local parents = {}
local depth = 0
local function printElem(t,spacing)
if(type(t) == "table") then
if parents[t] then
print(string.rep(" ",#spacing).."<cyclic reference>")
return
elseif depth > 0 and terra.isfunction(t) then
return --don't print the entire nested function...
end
parents[t] = true
depth = depth + 1
for k,v in pairs(t) do
local prefix
if type(k) == "table" and not terra.issymbol(k) then
prefix = ("<table (mt = %s)>"):format(tostring(getmetatable(k)))
else
prefix = tostring(k)
end
if k ~= "kind" and k ~= "offset" then
prefix = spacing..prefix..": "
if terra.types.istype(v) then --dont print the raw form of types unless printraw was called directly on the type
print(prefix..tostring(v))
else
print(prefix..header(v))
if isList(v) then
printElem(v,string.rep(" ",2+#spacing))
else
printElem(v,string.rep(" ",2+#prefix))
end
end
end
end
depth = depth - 1
parents[t] = nil
end
end
print(header(self))
if type(self) == "table" then
printElem(self," ")
end
end
local prettystring --like printraw, but with syntax formatting rather than as raw lsits
local function newobject(ref,ctor,...) -- create a new object, copying the line/file info from the reference
assert(ref.linenumber and ref.filename, "not a anchored object?")
local r = ctor(...)
r.linenumber,r.filename,r.offset = ref.linenumber,ref.filename,ref.offset
return r
end
local function copyobject(ref,newfields) -- copy an object, extracting any new replacement fields from newfields table
local class = getmetatable(ref)
local fields = class.__fields
assert(fields,"not a asdl object?")
local function handlefield(i,...) -- need to do this with tail recursion rather than a loop to handle nil values
if i == 0 then
return newobject(ref,class,...)
else
local f = fields[i]
local a = newfields[f.name] or ref[f.name]
newfields[f.name] = nil
return handlefield(i-1,a,...)
end
end
local r = handlefield(#fields)
for k,v in pairs(newfields) do
error("unused field in copy: "..tostring(k))
end
return r
end
T.tree.copy = copyobject --support :copy directly on objects
function T.tree:aserror() -- a copy of this tree with an error type, used when unable to return a real value
return self:copy{}:withtype(terra.types.error)
end
function terra.newanchor(depth)
local info = debug.getinfo(1 + depth,"Sl")
local body = { linenumber = info and info.currentline or 0, filename = info and info.short_src or "unknown" }
return setmetatable(body,terra.tree)
end
function terra.istree(v)
return T.tree:isclassof(v)
end
-- END TREE
local function mkstring(self,begin,sep,finish)
return begin..table.concat(self:map(tostring),sep)..finish
end
terra.newlist = List
function terra.islist(l) return List:isclassof(l) end
-- ENVIRONMENT
terra.environment = {}
terra.environment.__index = terra.environment
function terra.environment:enterblock()
local e = {}
self._localenv = setmetatable(e,{ __index = self._localenv })
end
function terra.environment:leaveblock()
self._localenv = getmetatable(self._localenv).__index
end
function terra.environment:localenv()
return self._localenv
end
function terra.environment:luaenv()
return self._luaenv
end
function terra.environment:combinedenv()
return self._combinedenv
end
function terra.newenvironment(_luaenv)
local self = setmetatable({},terra.environment)
self._luaenv = _luaenv
self._combinedenv = setmetatable({}, {
__index = function(_,idx)
return self._localenv[idx] or self._luaenv[idx]
end;
__newindex = function()
error("cannot define global variables or assign to upvalues in an escape")
end;
})
self:enterblock()
return self
end
-- END ENVIRONMENT
-- DIAGNOSTICS
terra.diagnostics = {}
terra.diagnostics.__index = terra.diagnostics
local diagcache = setmetatable({},{ __mode = "v" })
local function formaterror(anchor,...)
if not anchor or not anchor.filename or not anchor.linenumber then
error("nil anchor")
end
local errlist = List()
errlist:insert(anchor.filename..":"..anchor.linenumber..": ")
for i = 1,select("#",...) do errlist:insert(tostring(select(i,...))) end
errlist:insert("\n")
if not anchor.offset then
return errlist:concat()
end
local filename = anchor.filename
local filetext = diagcache[filename]
if not filetext then
local file = io.open(filename,"r")
if file then
filetext = file:read("*all")
diagcache[filename] = filetext
file:close()
end
end
if filetext then --if the code did not come from a file then we don't print the carrot, since we cannot (easily) find the text
local begin,finish = anchor.offset + 1,anchor.offset + 1
local TAB,NL = ("\t"):byte(),("\n"):byte()
while begin > 1 and filetext:byte(begin) ~= NL do
begin = begin - 1
end
if begin > 1 then
begin = begin + 1
end
while finish < filetext:len() and filetext:byte(finish + 1) ~= NL do
finish = finish + 1
end
local line = filetext:sub(begin,finish)
errlist:insert(line)
errlist:insert("\n")
for i = begin,anchor.offset do
errlist:insert((filetext:byte(i) == TAB and "\t") or " ")
end
errlist:insert("^\n")
end
return errlist:concat()
end
local function erroratlocation(anchor,...)
error(formaterror(anchor,...),0)
end
terra.diagnostics.source = {}
function terra.diagnostics:reporterror(anchor,...)
--erroratlocation(anchor,...) -- early error for debugging
self.errors:insert(formaterror(anchor,...))
end
function terra.diagnostics:haserrors()
return #self.errors > 0
end
function terra.diagnostics:finishandabortiferrors(msg,depth)
if #self.errors > 0 then
error(msg.."\n"..self.errors:concat(),depth+1)
end
end
function terra.newdiagnostics()
return setmetatable({ errors = List() },terra.diagnostics)
end
-- END DIAGNOSTICS
-- CUSTOM TRACEBACK
local TRACEBACK_LEVELS1 = 12
local TRACEBACK_LEVELS2 = 10
local function findfirstnilstackframe() --because stack size is not exposed we binary search for it
local low,high = 1,1
while debug.getinfo(high,"") ~= nil do
low,high = high,high*2
end --invariant: low is non-nil frame, high is nil frame, range gets smaller each iteration
while low + 1 ~= high do
local m = math.floor((low+high)/2)
if debug.getinfo(m,"") ~= nil then
low = m
else
high = m
end
end
return high - 1 --don't count ourselves
end
--all calls to user-defined functions from the compiler go through this wrapper
local function invokeuserfunction(anchor, what, speculate, userfn, ...)
if not speculate then
local result = userfn(...)
-- invokeuserfunction is recognized by a customtraceback and we need to prevent the tail call
return result
end
local success,result = xpcall(userfn,debug.traceback,...)
-- same here
return success, result
end
terra.fulltrace = false
terra.slimtrace = false
-- override the lua traceback function to be aware of Terra compilation contexts
function debug.traceback(msg,level)
level = level or 1
level = level + 1 -- don't count ourselves
local lim = terra.fulltrace and math.huge or TRACEBACK_LEVELS1 + 1
local lines = List()
if msg then
local file,outsideline,insideline,rest = msg:match "^$terra$(.*)$terra$(%d+):(%d+):(.*)"
if file then
msg = ("%s:%d:%s"):format(file,outsideline+insideline-1,rest)
end
lines:insert(("%s\n"):format(msg))
end
lines:insert("stack traceback:")
while true do
local di = debug.getinfo(level,"Snlf")
if not di then break end
if di.func == invokeuserfunction then
local anchorname,anchor = debug.getlocal(level,1)
local whatname,what = debug.getlocal(level,2)
assert(anchorname == "anchor" and whatname == "what")
lines:insert("\n\t")
lines:insert(formaterror(anchor,"Errors reported during "..what):sub(1,-2))
else
local short_src,currentline,linedefined = di.short_src,di.currentline,di.linedefined
local file,outsideline = di.source:match("^@$terra$(.*)$terra$(%d+)$")
if not terra.slimtrace or di.source:match(".*terralib%.lua$") == nil then
if file then
short_src = file
currentline = currentline and (currentline + outsideline - 1)
linedefined = linedefined and (linedefined + outsideline - 1)
end
lines:insert(("\n\t%s:"):format(short_src))
if di.currentline and di.currentline >= 0 then
lines:insert(("%d:"):format(currentline))
end
if di.namewhat ~= "" then
lines:insert((" in function '%s'"):format(di.name))
elseif di.what == "main" then
lines:insert(" in main chunk")
elseif di.what == "C" then
lines:insert( (" at %s"):format(tostring(di.func)))
else
lines:insert((" in function <%s:%d>"):format(short_src,linedefined))
end
end
end
level = level + 1
if level == lim then
if debug.getinfo(level + TRACEBACK_LEVELS2,"") ~= nil then
lines:insert("\n\t...")
level = findfirstnilstackframe() - TRACEBACK_LEVELS2
end
lim = math.huge
end
end
return table.concat(lines)
end
-- GLOBALVALUE
function T.globalvalue:gettype() return self.type end
function T.globalvalue:getname() return self.name end
function T.globalvalue:setname(name) self.name = tostring(name) return self end
local function readytocompile(root)
local visited = {}
local function visit(gv)
if visited[gv] or gv.readytocompile then return end
visited[gv] = true
if gv.kind == "terrafunction" then
if not gv:isdefined() then
erroratlocation(gv.anchor,"function "..gv:getname().." is not defined.")
end
gv.type:completefunction()
if gv.definition.kind == "functiondef" then
for i,g in ipairs(gv.definition.globalsused) do
visit(g)
end
end
elseif gv.kind == "globalvariable" then
gv.type:complete()
else error("unknown gv:"..tostring(gv)) end
end
visit(root)
-- if we succeeded, we can mark all the globals we visited ready, so they don't have to recompute this
for g,_ in pairs(visited) do
g.readytocompile = true
end
end
function T.globalvalue:checkreadytocompile()
if not self.readytocompile then
readytocompile(self)
end
end
function T.globalvalue:compile()
if not self.rawjitptr then
self.stats = self.stats or {}
self.rawjitptr,self.stats.jit = terra.jitcompilationunit:jitvalue(self)
end
return self.rawjitptr
end
function T.globalvalue:getpointer()
if not self.ffiwrapper then
local rawptr = self:compile()
self.ffiwrapper = ffi.cast(terra.types.pointer(self.type):cstring(),rawptr)
end
return self.ffiwrapper
end
-- TERRAFUNCTION
function T.terrafunction:__call(...)
local ffiwrapper = self:getpointer()
return ffiwrapper(...)
end
function T.terrafunction:setinlined(v)
assert(self:isdefined(), "attempting to set the inlining state of an undefined function")
self.definition.alwaysinline = not not v
assert(not (self.definition.alwaysinline and self.definition.dontoptimize),
"setinlined(true) and setoptimized(false) are incompatible")
end
function T.terrafunction:setoptimized(v)
assert(self:isdefined(), "attempting to set the optimization state of an undefined function")
self.definition.dontoptimize = not v
assert(not (self.definition.alwaysinline and self.definition.dontoptimize),
"setinlined(true) and setoptimized(false) are incompatible")
end
function T.terrafunction:setcallingconv(v)
assert(self:isdefined(), "attempting to set the calling convention of an undefined function")
self.definition.callingconv = tostring(v)
end
function T.terrafunction:setnoreturn(v)
assert(self:isdefined(), "attempting to set the noreturn state of an undefined function")
self.definition.noreturn = not not v
end
function T.terrafunction:disas()
print("definition ", self:gettype())
terra.disassemble(terra.jitcompilationunit:addvalue(self),self:compile())
end
function T.terrafunction:printstats()
self:compile()
print("definition ", self:gettype())
for k,v in pairs(self.stats) do
print("",k,v)
end
end
function T.terrafunction:isextern() return self.definition and self.definition.kind == "functionextern" end
function T.terrafunction:isdefined() return self.definition ~= nil end
function T.terrafunction:setname(name)
self.name = tostring(name)
if self.definition then self.definition.name = name end
return self
end
function T.terrafunction:adddefinition(functiondef)
if self.definition then error("terra function "..self.name.." already defined") end
self:resetdefinition(functiondef)
end
function T.terrafunction:resetdefinition(functiondef)
if T.terrafunction:isclassof(functiondef) and functiondef:isdefined() then
functiondef = functiondef.definition
end
assert(T.definition:isclassof(functiondef), "expected a defined terra function")
if self.readytocompile then error("cannot reset a definition of function that has already been compiled",2) end
if self.type ~= functiondef.type and self.type ~= terra.types.placeholderfunction then
error(("attempting to define terra function declaration with type %s with a terra function definition of type %s"):format(tostring(self.type),tostring(functiondef.type)))
end
self.definition,self.type,functiondef.name = functiondef,functiondef.type,assert(self.name)
end
function T.terrafunction:gettype(nop)
assert(nop == nil, ":gettype no longer takes any callbacks for when a function is complete")
if self.type == terra.types.placeholderfunction then
error("function being recursively referenced needs an explicit return type, function defintion at: "..formaterror(self.anchor,""),2)
end
return self.type
end
function terra.isfunction(obj)
return T.terrafunction:isclassof(obj)
end
-- END FUNCTION
function terra.isoverloadedfunction(obj) return T.overloadedterrafunction:isclassof(obj) end
function T.overloadedterrafunction:adddefinition(d)
assert(T.terrafunction:isclassof(d),"expected a terra function")
d:setname(self.name)
self.definitions:insert(d)
return self
end
function T.overloadedterrafunction:getdefinitions() return self.definitions end
function terra.overloadedfunction(name, init)
init = init or {}
return T.overloadedterrafunction(name,List{unpack(init)})
end
-- GLOBALVAR
function terra.isglobalvar(obj)
return T.globalvariable:isclassof(obj)
end
function T.globalvariable:init()
self.symbol = terra.newsymbol(self.type,self.name)
end
function T.globalvariable:isextern() return self.extern end
function T.globalvariable:isconstant() return self.constant end
local typecheck
local function constantcheck(e,checklvalue)
local kind = e.kind
if "literal" == kind or "constant" == kind or "sizeof" == kind then -- trivially ok
elseif "index" == kind and checklvalue then
constantcheck(e.value,true)
constantcheck(e.index)
elseif "operator" == kind then
local op = e.operator
if "@" == op then
constantcheck(e.operands[1])
if not checklvalue then
erroratlocation(e,"non-constant result of dereference used as a constant initializer")
end
elseif "&" == op then
constantcheck(e.operands[1],true)
else
for _,ee in ipairs(e.operands) do constantcheck(ee) end
end
elseif "select" == kind then
constantcheck(e.value,checklvalue)
elseif "globalvalueref" == kind then
if e.value.kind == "globalvariable" and not (e.value:isconstant() or checklvalue) then
erroratlocation(e,"non-constant use of global variable used as a constant initializer")
end
elseif "arrayconstructor" == kind or "vectorconstructor" == kind then
for _,ee in ipairs(e.expressions) do constantcheck(ee) end
elseif "cast" == kind then
if e.expression.type:isarray() then
if checklvalue then
constantcheck(e.expression,true)
else
erroratlocation(e,"non-constant cast of array to pointer used as a constant initializer")
end
else constantcheck(e.expression) end
elseif "structcast" == kind then
constantcheck(e.expression)
elseif "constructor" == kind then
for _,ee in ipairs(e.expressions) do constantcheck(ee) end
else
erroratlocation(e,"non-constant expression being used as a constant initializer")
end
return e
end
local function createglobalinitializer(anchor, typ, c)
if not c then return nil end
if not T.quote:isclassof(c) then
local c_ = c
c = newobject(anchor,T.luaexpression,function() return c_ end,true)
end
if typ then
c = newobject(anchor, T.cast, typ, c)
end
return constantcheck(typecheck(c))
end
function terra.global(...)
local typ = select(1,...)
typ = terra.types.istype(typ) and typ or nil
local c,name,isextern,isconstant,addressspace = select(typ and 2 or 1,...)
local anchor = terra.newanchor(2)
c = createglobalinitializer(anchor,typ,c)
if not typ then --set type if not set
if not c then
error("type must be specified for globals without an initializer",2)
end
typ = c.type
end
return T.globalvariable(c,tonumber(addressspace) or 0, isextern or false, isconstant or false, name or "<global>", typ, anchor)
end
function T.globalvariable:setinitializer(init)
if self.readytocompile then error("cannot change global variable initializer after it has been compiled.",2) end
self.initializer = createglobalinitializer(self.anchor,self.type,init)
end
function T.globalvariable:get()
local ptr = self:getpointer()
return ptr[0]
end
function T.globalvariable:set(v)
local ptr = self:getpointer()
ptr[0] = v
end
function T.globalvariable:__tostring()
local kind = self:isconstant() and "constant" or "global"
local extern = self:isextern() and "extern " or ""
local r = ("%s%s %s : %s"):format(extern,kind,self.name,tostring(self.type))
if self.initializer then
r = ("%s = %s"):format(r,prettystring(self.initializer,false))
end
return r
end
-- END GLOBALVAR
-- TARGET
local weakkeys = { __mode = "k" }
local function newweakkeytable()
return setmetatable({},weakkeys)
end
local function cdatawithdestructor(ud,dest)
local cd = ffi.cast("void*",ud)
ffi.gc(cd,dest)
return cd
end
terra.target = {}
terra.target.__index = terra.target
function terra.istarget(a) return getmetatable(a) == terra.target end
function terra.newtarget(tbl)
if not type(tbl) == "table" then error("expected a table",2) end
local Triple,CPU,Features,FloatABIHard = tbl.Triple,tbl.CPU,tbl.Features,tbl.FloatABIHard
if Triple then
CPU = CPU or ""
Features = Features or ""
end
return setmetatable({ llvm_target = cdatawithdestructor(terra.inittarget(Triple,CPU,Features,FloatABIHard),terra.freetarget),
Triple = Triple,
cnametostruct = { general = {}, tagged = {}} --map from llvm_name -> terra type used to make c structs unique per llvm_name
},terra.target)
end
function terra.target:getorcreatecstruct(displayname,tagged)
local namespace
if displayname ~= "" then
namespace = tagged and self.cnametostruct.tagged or self.cnametostruct.general
end
local typ = namespace and namespace[displayname]
if not typ then
typ = terra.types.newstruct(displayname == "" and "anon" or displayname)
typ.undefined = true
if namespace then namespace[displayname] = typ end
end
return typ
end
local function createoptimizationprofile(profile)
if type(profile) ~= "table" then
error("expected optimization profile to be a table but found " .. type(profile))
end
-- Handle fastmath flag.
local fastmath = profile["fastmath"]
if fastmath == nil then
fastmath = {}
elseif type(fastmath) == "boolean" then
fastmath = fastmath and {"fast"} or {}
elseif type(fastmath) == "string" then
fastmath = {fastmath}
elseif type(fastmath) == "table" then
for _, v in ipairs(fastmath) do
if type(v) ~= "string" then
error("expected fastmath to be a string but found " .. type(v))
end
end
-- Ok, leave it alone.
else
error("expected fastmath to be a boolean or string but found " .. type(fastmath))
end
profile["fastmath"] = fastmath -- Write it back.
return profile
end
-- COMPILATION UNIT
local compilationunit = {}
compilationunit.__index = compilationunit
function terra.newcompilationunit(target,opt,profile)
assert(terra.istarget(target),"expected a target object")
profile = createoptimizationprofile(profile)
return setmetatable({ symbols = newweakkeytable(),
collectfunctions = opt,
llvm_cu = cdatawithdestructor(terra.initcompilationunit(target.llvm_target,opt,profile),terra.freecompilationunit) },compilationunit) -- mapping from Types,Functions,Globals,Constants -> llvm value associated with them for this compilation
end
function compilationunit:addvalue(k,v)
if type(k) ~= "string" then k,v = nil,k end
v:checkreadytocompile()
return terra.compilationunitaddvalue(self,k,v)
end
function compilationunit:jitvalue(v)
local gv = self:addvalue(v)
return terra.jit(self.llvm_cu,gv)
end
function compilationunit:free()
assert(not self.collectfunctions, "cannot explicitly release a compilation unit with auto-delete functions")
ffi.gc(self.llvm_cu,nil) --unregister normal destructor object
terra.freecompilationunit(self.llvm_cu)
end
function compilationunit:dump() terra.dumpmodule(self.llvm_cu) end
terra.nativetarget = terra.newtarget {}
terra.jitcompilationunit = terra.newcompilationunit(terra.nativetarget,true,{fastmath=false}) -- compilation unit used for JIT compilation, will eventually specify the native architecture
terra.llvm_gcdebugmetatable = { __gc = function(obj)
print("GC IS CALLED")
end }
-- MACRO
terra.macro = {}
terra.macro.__index = terra.macro
terra.macro.__call = function(self,...)
if not self.fromlua then
error("macros must be called from inside terra code",2)
end
return self.fromlua(...)
end
function terra.macro:run(ctx,tree,...)
if self._internal then
return self.fromterra(ctx,tree,...)
else
return self.fromterra(...)
end
end
function terra.ismacro(t)
return getmetatable(t) == terra.macro
end
function terra.createmacro(fromterra,fromlua)
return setmetatable({fromterra = fromterra,fromlua = fromlua}, terra.macro)
end
function terra.internalmacro(...)
local m = terra.createmacro(...)
m._internal = true
return m
end
_G["macro"] = terra.createmacro --introduce macro intrinsic into global namespace
-- END MACRO
function terra.israwlist(l)
if terra.islist(l) then
return true
elseif type(l) == "table" and not getmetatable(l) then
local sz = #l
local i = 0
for k,v in pairs(l) do
i = i + 1
end
return i == sz --table only has integer keys and no other keys, we treat it as a list
end
return false
end
-- QUOTE
function terra.isquote(t)
return T.quote:isclassof(t)
end
function T.quote:astype()
if not self.tree:is "luaobject" or not T.Type:isclassof(self.tree.value) then
error("quoted value is not a type")
end
return self.tree.value
end
function T.quote:isluaobject() return self.tree.type == T.luaobjecttype end
function T.quote:gettype() return self.tree.type end
function T.quote:islvalue() return not not self.tree.lvalue end
function T.quote:asvalue()
local function getvalue(e)
if e:is "literal" then
if type(e.value) == "userdata" then
return tonumber(ffi.cast("uint64_t *",e.value)[0])
else
return e.value
end
elseif e:is "globalvalueref" then return e.value
elseif e:is "constant" then
return tonumber(e.value) or e.value or error("no value?")
elseif e:is "constructor" then
local t,typ = {},e.type
for i,r in ipairs(typ:getentries()) do
local v,e = getvalue(e.expressions[i])
if e then return nil,e end
local key = typ.convertible == "tuple" and i or r.field
t[key] = v
end
return t
elseif e:is "var" then return e.symbol
elseif e:is "luaobject" then
return e.value
else
local runconstantprop = function()
return terra.constant(self):get()
end
local status,value = pcall(runconstantprop)
if not status then
return nil, "not a constant value (note: :asvalue() isn't implement for all constants yet), error propagating constant was: "..tostring(value)
end
return value
end
end
return getvalue(self.tree)
end
function T.quote:init()
assert(T.Type:isclassof(self.tree.type), "quote tree must have a type")
end
function terra.newquote(tree) return newobject(tree,T.quote,tree) end
-- END QUOTE
local identcount = 0
-- SYMBOL
function terra.issymbol(s)
return T.Symbol:isclassof(s)
end
function terra.newsymbol(typ,displayname)
if not terra.types.istype(typ) then error("symbol requires a Terra type but found "..terra.type(typ).." (use label() for goto labels,method names, and field names)") end
displayname = displayname or tostring(identcount)
local r = T.Symbol(typ,displayname,identcount)
identcount = identcount + 1
return r
end
function T.Symbol:__tostring()
return "$"..self.displayname
end
function T.Symbol:tocname() return "__symbol"..tostring(self.id) end
_G["symbol"] = terra.newsymbol
-- LABEL
function terra.islabel(l) return T.Label:isclassof(l) end
function T.Label:__tostring() return "$"..self.displayname end
function terra.newlabel(displayname)
displayname = displayname or tostring(identcount)
local r = T.Label(displayname,identcount)
identcount = identcount + 1
return r
end
function T.Label:tocname() return "__label_"..tostring(self.id) end
_G["label"] = terra.newlabel
-- INTRINSIC
function terra.intrinsic(str, typ)
local typefn
if typ == nil and type(str) == "function" then
typefn = str
elseif type(str) == "string" and terra.types.istype(typ) then
typefn = function() return str,typ end
else
error("expected a name and type or a function providing a name and type but found "..tostring(str) .. ", " .. tostring(typ))
end
local function intrinsiccall(diag,e,...)
local args = terra.newlist {...}
local types = args:map("gettype")
local name,intrinsictype = typefn(types)
if type(name) ~= "string" then
diag:reporterror(e,"expected an intrinsic name but found ",terra.type(name))
name = "<unknownintrinsic>"
elseif intrinsictype == terra.types.error then
diag:reporterror(e,"intrinsic ",name," does not support arguments: ",unpack(types))
intrinsictype = terra.types.funcpointer(types,{})