diff options
Diffstat (limited to 'src/mesa/glapi/glX_proto_send.py')
| -rw-r--r-- | src/mesa/glapi/glX_proto_send.py | 784 |
1 files changed, 442 insertions, 342 deletions
diff --git a/src/mesa/glapi/glX_proto_send.py b/src/mesa/glapi/glX_proto_send.py index 94c096e686..6a4d1dfc0d 100644 --- a/src/mesa/glapi/glX_proto_send.py +++ b/src/mesa/glapi/glX_proto_send.py @@ -1,4 +1,4 @@ -#!/usr/bin/python2 +#!/usr/bin/env python # (C) Copyright IBM Corporation 2004, 2005 # All Rights Reserved. @@ -25,10 +25,8 @@ # Authors: # Ian Romanick <idr@us.ibm.com> -import gl_XML -import glX_XML -import license -import sys, getopt, copy +import gl_XML, glX_XML, glX_proto_common, license +import sys, getopt, copy, string def hash_pixel_function(func): """Generate a 'unique' key for a pixel function. The key is based on @@ -36,26 +34,34 @@ def hash_pixel_function(func): padding that might be added for the original function and the 'NULL image' flag.""" - [dim, junk, junk, junk, junk] = func.dimensions() - d = (dim + 1) & ~1 - h = "%uD%uD_" % (d - 1, d) + h = "" + hash_pre = "" + hash_suf = "" + for param in func.parameterIterateGlxSend(): + if param.is_image(): + [dim, junk, junk, junk, junk] = param.get_dimensions() - for p in func.parameterIterator(1, 1): - h = "%s%u" % (h, p.size()) + d = (dim + 1) & ~1 + hash_pre = "%uD%uD_" % (d - 1, d) - if func.pad_after(p): + if param.img_null_flag: + hash_suf = "_NF" + + h += "%u" % (param.size()) + + if func.pad_after(param): h += "4" - if func.image.img_null_flag: - h += "_NF" n = func.name.replace("%uD" % (dim), "") n = "__glx_%s_%uD%uD" % (n, d - 1, d) + + h = hash_pre + h + hash_suf return [h, n] -class glXPixelFunctionUtility(glX_XML.glXFunction): +class glx_pixel_function_stub(glX_XML.glx_function): """Dummy class used to generate pixel "utility" functions that are shared by multiple dimension image functions. For example, these objects are used to generate shared functions used to send GLX @@ -68,46 +74,71 @@ class glXPixelFunctionUtility(glX_XML.glXFunction): # parameters. self.name = name - self.image = copy.copy(func.image) - self.fn_parameters = [] - for p in gl_XML.glFunction.parameterIterator(func): - self.fn_parameters.append(p) + self.images = [] + self.parameters = [] + self.parameters_by_name = {} + for _p in func.parameterIterator(): + p = copy.copy(_p) + self.parameters.append(p) + self.parameters_by_name[ p.name ] = p + + + if p.is_image(): + self.images.append(p) + p.height = "height" + + if p.img_yoff == None: + p.img_yoff = "yoffset" + + if p.depth: + if p.extent == None: + p.extent = "extent" + + if p.img_woff == None: + p.img_woff = "woffset" + pad_name = func.pad_after(p) if pad_name: pad = copy.copy(p) pad.name = pad_name - self.fn_parameters.append(pad) + self.parameters.append(pad) + self.parameters_by_name[ pad.name ] = pad - if self.image.height == None: - self.image.height = "height" + self.return_type = func.return_type - if self.image.img_yoff == None: - self.image.img_yoff = "yoffset" + self.glx_rop = ~0 + self.glx_sop = 0 + self.glx_vendorpriv = 0 - if func.image.depth: - if self.image.extent == None: - self.image.extent = "extent" + self.glx_doubles_in_order = func.glx_doubles_in_order - if self.image.img_woff == None: - self.image.img_woff = "woffset" + self.vectorequiv = None + self.output = None + self.can_be_large = func.can_be_large + self.reply_always_array = func.reply_always_array + self.dimensions_in_reply = func.dimensions_in_reply + self.img_reset = None + self.server_handcode = 0 + self.client_handcode = 0 + self.ignore = 0 - self.set_return_type( func.fn_return_type ) - self.glx_rop = ~0 - self.can_be_large = func.can_be_large self.count_parameter_list = func.count_parameter_list - self.counter = func.counter - self.img_reset = None + self.counter_list = func.counter_list + self.offsets_calculated = 0 return -class PrintGlxProtoStubs(glX_XML.GlxProto): +class PrintGlxProtoStubs(glX_proto_common.glx_print_proto): def __init__(self): - glX_XML.GlxProto.__init__(self) - self.last_category = "" + glX_proto_common.glx_print_proto.__init__(self) + self.name = "glX_proto_send.py (from Mesa)" self.license = license.bsd_license_template % ( "(C) Copyright IBM Corporation 2004, 2005", "IBM") + + + self.last_category = "" self.generic_sizes = [3, 4, 6, 8, 12, 16, 24, 32] self.pixel_stubs = {} self.debug = 0 @@ -125,7 +156,7 @@ class PrintGlxProtoStubs(glX_XML.GlxProto): print '#include <X11/XCB/xcb.h>' print '#include <X11/XCB/glx.h>' print '#endif /* USE_XCB */' - + print '' print '#define __GLX_PAD(n) (((n) + 3) & ~3)' print '' @@ -262,18 +293,76 @@ const GLuint __glXDefaultPixelStore[9] = { 0, 0, 0, 0, 0, 0, 0, 0, 1 }; self.print_generic_function(size) return - def printFunction(self, f): - if f.client_handcode: return - if f.glx_rop != 0 or f.vectorequiv != None: - if f.image: - self.printPixelFunction(f) + def printBody(self, api): + + self.pixel_stubs = {} + generated_stubs = [] + + for func in api.functionIterateGlx(): + if func.client_handcode: continue + + # If the function is a pixel function with a certain + # GLX protocol signature, create a fake stub function + # for it. For example, create a single stub function + # that is used to implement both glTexImage1D and + # glTexImage2D. + + if func.glx_rop != 0: + do_it = 0 + for image in func.get_images(): + if image.img_pad_dimensions: + do_it = 1 + break + + + if do_it: + [h, n] = hash_pixel_function(func) + + + self.pixel_stubs[ func.name ] = n + if h not in generated_stubs: + generated_stubs.append(h) + + fake_func = glx_pixel_function_stub( func, n ) + self.printFunction( fake_func ) + + + self.printFunction( func ) + + return + + + def printFunction(self, func): + if func.glx_rop == ~0: + print 'static %s' % (func.return_type) + print '%s( unsigned opcode, unsigned dim, %s )' % (func.name, func.get_parameter_string()) + else: + print '#define %s %d' % (func.opcode_name(), func.opcode_value()) + + print '%s' % (func.return_type) + print '__indirect_gl%s(%s)' % (func.name, func.get_parameter_string()) + + + print '{' + + + if func.glx_rop != 0 or func.vectorequiv != None: + if len(func.images): + self.printPixelFunction(func) else: - self.printRenderFunction(f) - elif f.glx_sop != 0 or f.glx_vendorpriv != 0: - self.printSingleFunction(f) + self.printRenderFunction(func) + elif func.glx_sop != 0 or func.glx_vendorpriv != 0: + self.printSingleFunction(func) + pass else: - print "/* Missing GLX protocol for %s. */" % (f.name) + print "/* Missing GLX protocol for %s. */" % (func.name) + + print '}' + print '' + + return + def print_generic_function(self, n): size = (n + 3) & ~3 @@ -289,59 +378,91 @@ generic_%u_byte( GLint rop, const void * ptr ) if (__builtin_expect(gc->pc > gc->limit, 0)) { (void) __glXFlushRenderBuffer(gc, gc->pc); } } """ % (n, size + 4, size) + return - def common_emit_one_arg(self, p, offset, pc, indent, adjust): - t = p.p_type + def common_emit_one_arg(self, p, pc, indent, adjust, extra_offset): if p.is_array(): src_ptr = p.name else: src_ptr = "&" + p.name - print '%s (void) memcpy((void *)(%s + %u), (void *)(%s), %s);' \ - % (indent, pc, offset + adjust, src_ptr, p.size_string() ) + if not extra_offset: + print '%s (void) memcpy((void *)(%s + %u), (void *)(%s), %s);' \ + % (indent, pc, p.offset + adjust, src_ptr, p.size_string() ) + else: + print '%s (void) memcpy((void *)(%s + %u + %s), (void *)(%s), %s);' \ + % (indent, pc, p.offset + adjust, extra_offset, src_ptr, p.size_string() ) def common_emit_args(self, f, pc, indent, adjust, skip_vla): - offset = 0 - - if skip_vla: - r = 1 - else: - r = 2 + extra_offset = None - for p in f.parameterIterator(1, r): + for p in f.parameterIterateGlxSend( not skip_vla ): if p.name != f.img_reset: - self.common_emit_one_arg(p, offset, pc, indent, adjust) - offset += p.size() + self.common_emit_one_arg(p, pc, indent, adjust, extra_offset) + + if p.is_variable_length(): + temp = p.size_string() + if extra_offset: + extra_offset += " + %s" % (temp) + else: + extra_offset = temp - return offset + return - def pixel_emit_args(self, f, pc, indent, adjust, dim, large): + def pixel_emit_args(self, f, pc, indent, large): """Emit the arguments for a pixel function. This differs from common_emit_args in that pixel functions may require padding be inserted (i.e., for the missing width field for TexImage1D), and they may also require a 'NULL image' flag be inserted before the image data.""" - offset = 0 - for p in f.parameterIterator(1, 1): - self.common_emit_one_arg(p, offset, pc, indent, adjust) - offset += p.size() + if large: + adjust = 8 + else: + adjust = 4 + + for param in f.parameterIterateGlxSend(): + if not param.is_image(): + self.common_emit_one_arg(param, pc, indent, adjust, None) - if f.pad_after(p): - print '%s (void) memcpy((void *)(%s + %u), zero, 4);' % (indent, pc, offset + adjust) - offset += 4 + if f.pad_after(param): + print '%s (void) memcpy((void *)(%s + %u), zero, 4);' % (indent, pc, (param.offset + param.size()) + adjust) - if f.image.img_null_flag: - if large: - print '%s (void) memcpy((void *)(%s + %u), zero, 4);' % (indent, pc, offset + adjust) else: - print '%s (void) memcpy((void *)(%s + %u), (void *)((%s == NULL) ? one : zero), 4);' % (indent, pc, offset + adjust, f.image.name) + [dim, width, height, depth, extent] = param.get_dimensions() + if f.glx_rop == ~0: + dim_str = "dim" + else: + dim_str = str(dim) + + if param.img_null_flag: + if large: + print '%s (void) memcpy((void *)(%s + %u), zero, 4);' % (indent, pc, (param.offset - 4) + adjust) + else: + print '%s (void) memcpy((void *)(%s + %u), (void *)((%s == NULL) ? one : zero), 4);' % (indent, pc, (param.offset - 4) + adjust, param.name) + - offset += 4 + pixHeaderPtr = "%s + %u" % (pc, adjust) + pcPtr = "%s + %u" % (pc, param.offset + adjust) - return offset + if not large: + if param.img_send_null: + condition = '(compsize > 0) && (%s != NULL)' % (param.name) + else: + condition = 'compsize > 0' + + print '%s if (%s) {' % (indent, condition) + print '%s (*gc->fillImage)(gc, %s, %s, %s, %s, %s, %s, %s, %s, %s);' % (indent, dim_str, width, height, depth, param.img_format, param.img_type, param.name, pcPtr, pixHeaderPtr) + print '%s }' % (indent) + print '%s else {' % (indent) + print '%s (void) memcpy( %s, default_pixel_store_%uD, default_pixel_store_%uD_size );' % (indent, pixHeaderPtr, dim, dim) + print '%s }' % (indent) + else: + print '%s __glXSendLargeImage(gc, compsize, %s, %s, %s, %s, %s, %s, %s, %s, %s);' % (indent, dim_str, width, height, depth, param.img_format, param.img_type, param.name, pcPtr, pixHeaderPtr) + + return def large_emit_begin(self, indent, f, op_name = None): @@ -356,26 +477,27 @@ generic_%u_byte( GLint rop, const void * ptr ) return - def common_func_print_just_header(self, f): - print '#define %s %d' % (f.opcode_name(), f.opcode_value()) - - print '%s' % (f.fn_return_type) - print '__indirect_gl%s(%s)' % (f.name, f.get_parameter_string()) - print '{' - - def common_func_print_just_start(self, f): print ' __GLXcontext * const gc = __glXGetCurrentContext();' - + # The only reason that single and vendor private commands need # a variable called 'dpy' is becuase they use the SyncHandle # macro. For whatever brain-dead reason, that macro is hard- # coded to use a variable called 'dpy' instead of taking a # parameter. + # FIXME Simplify the logic related to skip_condition and + # FIXME condition_list in this function. Basically, remove + # FIXME skip_condition, and just append the "dpy != NULL" type + # FIXME condition to condition_list from the start. The only + # FIXME reason it's done in this confusing way now is to + # FIXME minimize the diffs in the generated code. + if not f.glx_rop: - if f.image and f.image.is_output: - print ' const __GLXattribute * const state = gc->client_state_private;' + for p in f.parameterIterateOutputs(): + if p.is_image(): + print ' const __GLXattribute * const state = gc->client_state_private;' + break print ' Display * const dpy = gc->currentDpy;' skip_condition = "dpy != NULL" @@ -385,41 +507,37 @@ generic_%u_byte( GLint rop, const void * ptr ) skip_condition = None - if f.fn_return_type != 'void': - print ' %s retval = (%s) 0;' % (f.fn_return_type, f.fn_return_type) + if f.return_type != 'void': + print ' %s retval = (%s) 0;' % (f.return_type, f.return_type) - if not f.output_parameter(): - compsize = self.size_call( f ) - if compsize: - print ' const GLuint compsize = %s;' % (compsize) - print ' const GLuint cmdlen = %s;' % (f.command_length()) - - if f.counter: - if skip_condition: - skip_condition = "(%s >= 0) && (%s)" % (f.counter, skip_condition) - else: - skip_condition = "%s >= 0" % (f.counter) + self.emit_packet_size_calculation(f, 0) + condition_list = [] + for p in f.parameterIterateCounters(): + condition_list.append( "%s >= 0" % (p.name) ) if skip_condition: + condition_list.append( skip_condition ) + + if len( condition_list ) > 0: + if len( condition_list ) > 1: + skip_condition = "(%s)" % (string.join( condition_list, ") && (" )) + else: + skip_condition = "%s" % (condition_list.pop(0)) + print ' if (__builtin_expect(%s, 1)) {' % (skip_condition) return 1 else: return 0 - def common_func_print_header(self, f): - self.common_func_print_just_header(f) - return self.common_func_print_just_start(f) - - - def printSingleFunction(self, f): - self.common_func_print_header(f) - + self.common_func_print_just_start(f) + if self.debug: print ' printf( "Enter %%s...\\n", "gl%s" );' % (f.name) + if f.glx_vendorpriv == 0: # XCB specific: @@ -429,44 +547,52 @@ generic_%u_byte( GLint rop, const void * ptr ) print ' XCBConnection *c = XCBConnectionOfDisplay(dpy);' print ' (void) __glXFlushRenderBuffer(gc, gc->pc);' xcb_name = 'XCBGlx%s' % f.name + iparams=[] - for p in f.fn_parameters: - if p.is_output == 0: + extra_iparams = [] + output = None + for p in f.parameterIterator(): + if p.is_output: + output = p + + if p.is_image(): + if p.img_format != "GL_COLOR_INDEX" or p.img_type != "GL_BITMAP": + extra_iparams.append("state->storePack.swapEndian") + else: + extra_iparams.append("0") + + # Hardcode this in. lsb_first param (apparently always GL_FALSE) + # also present in GetPolygonStipple, but taken care of above. + if xcb_name == "XCBGlxReadPixels": + extra_iparams.append("0") + else: iparams.append(p.name) - if f.image and f.image.is_output: - if f.image.img_format != "GL_COLOR_INDEX" or f.image.img_type != "GL_BITMAP": - iparams.append("state->storePack.swapEndian") - else: - iparams.append("0") - - # Hardcode this in. lsb_first param (apparently always GL_FALSE) - # also present in GetPolygonStipple, but taken care of above. - if xcb_name == "XCBGlxReadPixels": iparams.append("0") - - xcb_request = '%s(%s)' % (xcb_name, ", ".join(["c", "gc->currentContextTag"] + iparams)) + + xcb_request = '%s(%s)' % (xcb_name, ", ".join(["c", "gc->currentContextTag"] + iparams + extra_iparams)) if f.needs_reply(): print ' %sRep *reply = %sReply(c, %s, NULL);' % (xcb_name, xcb_name, xcb_request) - if f.output and f.reply_always_array: - print ' %s = (%s *)%sData(reply);' % (f.output.name, f.output.p_type.name, xcb_name) - elif f.output and not f.reply_always_array: - if not f.image and not f.name == "GenQueriesARB": + if output and f.reply_always_array: + print ' %s = (%s)%sData(reply);' % (output.name, output.type_string(), xcb_name) + elif output and not f.reply_always_array: + if not output.is_image(): print ' if (%sDataLength(reply) == 0)' % (xcb_name) - print ' (void)memcpy(%s, &reply->datum, sizeof(reply->datum));' % (f.output.name) + print ' (void)memcpy(%s, &reply->datum, sizeof(reply->datum));' % (output.name) print ' else' - print ' (void)memcpy(%s, %sData(reply), %sDataLength(reply) * sizeof(%s));' % (f.output.name, xcb_name, xcb_name, f.output.p_type.name) + print ' (void)memcpy(%s, %sData(reply), %sDataLength(reply) * sizeof(%s));' % (output.name, xcb_name, xcb_name, output.get_base_type_string()) - if f.fn_return_type != 'void': + if f.return_type != 'void': print ' retval = reply->ret_val;' print ' free(reply);' else: print ' ' + xcb_request + ';' print '#else' # End of XCB specific. - - if f.fn_parameters != []: + + + if f.parameters != []: pc_decl = "GLubyte const * pc =" else: pc_decl = "(void)" @@ -477,190 +603,108 @@ generic_%u_byte( GLint rop, const void * ptr ) print ' %s __glXSetupSingleRequest(gc, %s, cmdlen);' % (pc_decl, f.opcode_name()) self.common_emit_args(f, "pc", " ", 0, 0) - if f.image and f.image.is_output: - o = f.command_fixed_length() - 4 - print ' *(int32_t *)(pc + %u) = 0;' % (o) - if f.image.img_format != "GL_COLOR_INDEX" or f.image.img_type != "GL_BITMAP": - print ' * (int8_t *)(pc + %u) = state->storePack.swapEndian;' % (o) + images = f.get_images() + + for img in images: + if img.is_output: + o = f.command_fixed_length() - 4 + print ' *(int32_t *)(pc + %u) = 0;' % (o) + if img.img_format != "GL_COLOR_INDEX" or img.img_type != "GL_BITMAP": + print ' * (int8_t *)(pc + %u) = state->storePack.swapEndian;' % (o) + if f.img_reset: print ' * (int8_t *)(pc + %u) = %s;' % (o + 1, f.img_reset) + return_name = '' if f.needs_reply(): - if f.image and f.image.is_output: - [dim, w, h, d, junk] = f.dimensions() - if f.dimensions_in_reply: - print " __glXReadPixelReply(dpy, gc, %u, 0, 0, 0, %s, %s, %s, GL_TRUE);" % (dim, f.image.img_format, f.image.img_type, f.image.name) - else: - print " __glXReadPixelReply(dpy, gc, %u, %s, %s, %s, %s, %s, %s, GL_FALSE);" % (dim, w, h, d, f.image.img_format, f.image.img_type, f.image.name) + if f.return_type != 'void': + return_name = " retval" + return_str = " retval = (%s)" % (f.return_type) else: - if f.output != None: - if f.output.p_type.size == 0: - output_size = 1 + return_str = " (void)" + + got_reply = 0 + + for p in f.parameterIterateOutputs(): + if p.is_image(): + [dim, w, h, d, junk] = p.get_dimensions() + if f.dimensions_in_reply: + print " __glXReadPixelReply(dpy, gc, %u, 0, 0, 0, %s, %s, %s, GL_TRUE);" % (dim, p.img_format, p.img_type, p.name) else: - output_size = f.output.p_type.size + print " __glXReadPixelReply(dpy, gc, %u, %s, %s, %s, %s, %s, %s, GL_FALSE);" % (dim, w, h, d, p.img_format, p.img_type, p.name) - output_str = f.output.name + got_reply = 1 else: - output_size = 0 - output_str = "NULL" + if f.reply_always_array: + aa = "GL_TRUE" + else: + aa = "GL_FALSE" - if f.fn_return_type != 'void': - return_str = " retval = (%s)" % (f.fn_return_type) - else: - return_str = " (void)" + # gl_parameter.size() returns the size + # of the entire data item. If the + # item is a fixed-size array, this is + # the size of the whole array. This + # is not what __glXReadReply wants. It + # wants the size of a single data + # element in the reply packet. + # Dividing by the array size (1 for + # non-arrays) gives us this. - if f.reply_always_array: - aa = "GL_TRUE" - else: - aa = "GL_FALSE" + s = p.size() / p.get_element_count() + print " %s __glXReadReply(dpy, %s, %s, %s);" % (return_str, s, p.name, aa) + got_reply = 1 + + + # If a reply wasn't read to fill an output parameter, + # read a NULL reply to get the return value. + + if not got_reply: + print " %s __glXReadReply(dpy, 0, NULL, GL_FALSE);" % (return_str) - print " %s __glXReadReply(dpy, %s, %s, %s);" % (return_str, output_size, output_str, aa) elif self.debug: # Only emit the extra glFinish call for functions # that don't already require a reply from the server. print ' __indirect_glFinish();' - print ' UnlockDisplay(dpy); SyncHandle();' - - if f.glx_vendorpriv == 0: - print '#endif /* USE_XCB */' - if self.debug: print ' printf( "Exit %%s.\\n", "gl%s" );' % (f.name) - print ' }' - print ' %s' % f.return_string() - print '}' - print '' - return - - - def printPixelFunction(self, f): - """This function could use some major refactoring. :(""" - - # There is a code-space optimization that we can do here. - # Functions that are marked img_pad_dimensions have a version - # with an odd number of dimensions and an even number of - # dimensions. TexSubImage1D and TexSubImage2D are examples. - # We can emit a single function that does both, and have the - # real functions call the utility function with the correct - # parameters. - # - # The only quirk to this is that utility funcitons will be - # generated for 3D and 4D functions, but 4D (e.g., - # GL_SGIS_texture4D) isn't typically supported. This is - # probably not an issue. However, it would be possible to - # look at the total set of functions and determine if there - # is another function that would actually use the utility - # function. If not, then fallback to the normal way of - # generating code. - - if f.image.img_pad_dimensions: - # Determine the hash key and the name for the utility - # function that is used to implement the real - # function. - - [h, n] = hash_pixel_function(f) - - - # If the utility function is not yet known, generate - # it. - - if not self.pixel_stubs.has_key(h): - self.pixel_stubs[h] = n - pixel_func = glXPixelFunctionUtility(f, n) - print 'static void' - print '%s( unsigned opcode, unsigned dim, %s )' % (n, pixel_func.get_parameter_string()) - print '{' - - if self.common_func_print_just_start(pixel_func): - indent = " " - trailer = " }" - else: - indent = "" - trailer = None - - - if pixel_func.can_be_large: - print '%s if (cmdlen <= gc->maxSmallRenderCommandSize) {' % (indent) - print '%s if ( (gc->pc + cmdlen) > gc->bufEnd ) {' % (indent) - print '%s (void) __glXFlushRenderBuffer(gc, gc->pc);' % (indent) - print '%s }' % (indent) - indent += " " - - [dim, width, height, depth, extent] = pixel_func.dimensions() - adjust = pixel_func.offset_of_first_parameter() + 4 - - print '%s emit_header(gc->pc, opcode, cmdlen);' % (indent) - - offset = self.pixel_emit_args(pixel_func, "gc->pc", indent, adjust, dim, 0) - - s = pixel_func.command_fixed_length() - - pixHeaderPtr = "gc->pc + 4" - pcPtr = "gc->pc + %u" % (s + 4) - - if pixel_func.image.img_send_null: - condition = '(compsize > 0) && (%s != NULL)' % (pixel_func.image.name) - else: - condition = 'compsize > 0' - - print '%s if (%s) {' % (indent, condition) - print '%s (*gc->fillImage)(gc, dim, %s, %s, %s, %s, %s, %s, %s, %s);' % (indent, width, height, depth, pixel_func.image.img_format, pixel_func.image.img_type, pixel_func.image.name, pcPtr, pixHeaderPtr) - print '%s }' % (indent) - print '%s else {' % (indent) - print '%s (void) memcpy( %s, default_pixel_store_%uD, default_pixel_store_%uD_size );' % (indent, pixHeaderPtr, dim, dim) - print '%s }' % (indent) - - print '%s gc->pc += cmdlen;' % (indent) - print '%s if (gc->pc > gc->limit) { (void) __glXFlushRenderBuffer(gc, gc->pc); }' % (indent) - - if f.can_be_large: - adjust += 4 - - print '%s}' % (indent) - print '%selse {' % (indent) - - self.large_emit_begin(indent, pixel_func, "opcode") - offset = self.pixel_emit_args(pixel_func, "pc", indent, adjust, dim, 1) - - pixHeaderPtr = "pc + 8" - pcPtr = "pc + %u" % (s + 8) - - print '%s __glXSendLargeImage(gc, compsize, dim, %s, %s, %s, %s, %s, %s, %s, %s);' % (indent, width, height, depth, f.image.img_format, f.image.img_type, f.image.name, pcPtr, pixHeaderPtr) - - print '%s}' % (indent) - - if trailer: print trailer - print '}' - print '' + print ' UnlockDisplay(dpy); SyncHandle();' + if f.glx_vendorpriv == 0: + print '#endif /* USE_XCB */' - # Generate the real function as a call to the - # utility function. + print ' }' + print ' return%s;' % (return_name) + return - self.common_func_print_just_header(f) - [dim, junk, junk, junk, junk] = f.dimensions() + def printPixelFunction(self, f): + if self.pixel_stubs.has_key( f.name ): + # Normally gl_function::get_parameter_string could be + # used. However, this call needs to have the missing + # dimensions (e.g., a fake height value for + # glTexImage1D) added in. p_string = "" - for p in gl_XML.glFunction.parameterIterator(f): - p_string += ", " + p.name + for param in f.parameterIterateGlxSend(): + p_string += ", " + param.name + + if param.is_image(): + [dim, junk, junk, junk, junk] = param.get_dimensions() - if f.pad_after(p): + if f.pad_after(param): p_string += ", 1" - print ' %s(%s, %u%s );' % (n, f.opcode_name(), dim, p_string) - print '}' - print '' + print ' %s(%s, %u%s );' % (self.pixel_stubs[f.name] , f.opcode_name(), dim, p_string) return - if self.common_func_print_header(f): + if self.common_func_print_just_start(f): indent = " " trailer = " }" else: @@ -675,52 +719,27 @@ generic_%u_byte( GLint rop, const void * ptr ) print '%s }' % (indent) indent += " " - [dim, width, height, depth, extent] = f.dimensions() - adjust = f.offset_of_first_parameter() + 4 - - print '%s emit_header(gc->pc, %s, cmdlen);' % (indent, f.opcode_real_name()) - - offset = self.pixel_emit_args(f, "gc->pc", indent, adjust, dim, 0) - - s = f.command_fixed_length() - - pixHeaderPtr = "gc->pc + 4" - pcPtr = "gc->pc + %u" % (s + 4) - - if f.image.img_send_null: - condition = '(compsize > 0) && (%s != NULL)' % (f.image.name) + if f.glx_rop == ~0: + opcode = "opcode" else: - condition = 'compsize > 0' + opcode = f.opcode_real_name() - print '%s if (%s) {' % (indent, condition) - print '%s (*gc->fillImage)(gc, %u, %s, %s, %s, %s, %s, %s, %s, %s);' % (indent, dim, width, height, depth, f.image.img_format, f.image.img_type, f.image.name, pcPtr, pixHeaderPtr) - print '%s }' % (indent) - print '%s else {' % (indent) - print '%s (void) memcpy( %s, default_pixel_store_%uD, default_pixel_store_%uD_size );' % (indent, pixHeaderPtr, dim, dim) - print '%s }' % (indent) + print '%s emit_header(gc->pc, %s, cmdlen);' % (indent, opcode) + self.pixel_emit_args( f, "gc->pc", indent, 0 ) print '%s gc->pc += cmdlen;' % (indent) print '%s if (gc->pc > gc->limit) { (void) __glXFlushRenderBuffer(gc, gc->pc); }' % (indent) if f.can_be_large: - adjust += 4 - print '%s}' % (indent) print '%selse {' % (indent) - self.large_emit_begin(indent, f) - offset = self.pixel_emit_args(f, "pc", indent, adjust, dim, 1) - - pixHeaderPtr = "pc + 8" - pcPtr = "pc + %u" % (s + 8) - - print '%s __glXSendLargeImage(gc, compsize, %u, %s, %s, %s, %s, %s, %s, %s, %s);' % (indent, dim, width, height, depth, f.image.img_format, f.image.img_type, f.image.name, pcPtr, pixHeaderPtr) + self.large_emit_begin(indent, f, opcode) + self.pixel_emit_args( f, "pc", indent, 1 ) print '%s}' % (indent) if trailer: print trailer - print '}' - print '' return @@ -731,19 +750,16 @@ generic_%u_byte( GLint rop, const void * ptr ) # regular. Since they are so regular and there are so many # of them, special case them with generic functions. On # x86, this saves about 26KB in the libGL.so binary. - - if f.variable_length_parameter() == None and len(f.fn_parameters) == 1: - p = f.fn_parameters[0] - if p.is_pointer: + + if f.variable_length_parameter() == None and len(f.parameters) == 1: + p = f.parameters[0] + if p.is_pointer(): cmdlen = f.command_fixed_length() if cmdlen in self.generic_sizes: - self.common_func_print_just_header(f) print ' generic_%u_byte( %s, %s );' % (cmdlen, f.opcode_real_name(), p.name) - print '}' - print '' return - if self.common_func_print_header(f): + if self.common_func_print_just_start(f): indent = " " trailer = " }" else: @@ -771,10 +787,10 @@ generic_%u_byte( GLint rop, const void * ptr ) print '%selse {' % (indent) self.large_emit_begin(indent, f) - offset = self.common_emit_args(f, "pc", indent, 8, 1) + self.common_emit_args(f, "pc", indent, 8, 1) p = f.variable_length_parameter() - print '%s __glXSendLargeCommand(gc, pc, %u, %s, %s);' % (indent, offset + 8, p.name, p.size_string()) + print '%s __glXSendLargeCommand(gc, pc, %u, %s, %s);' % (indent, p.offset + 8, p.name, p.size_string()) print '%s}' % (indent) if self.debug: @@ -782,18 +798,18 @@ generic_%u_byte( GLint rop, const void * ptr ) print '%s printf( "Exit %%s.\\n", "gl%s" );' % (indent, f.name) if trailer: print trailer - print '}' - print '' return -class PrintGlxProtoInit_c(glX_XML.GlxProto): +class PrintGlxProtoInit_c(gl_XML.gl_print_base): def __init__(self): - glX_XML.GlxProto.__init__(self) - self.last_category = "" + gl_XML.gl_print_base.__init__(self) + + self.name = "glX_proto_send.py (from Mesa)" self.license = license.bsd_license_template % ( \ """Copyright 1998-1999 Precision Insight, Inc., Cedar Park, Texas. (C) Copyright IBM Corporation 2004""", "PRECISION INSIGHT, IBM") + return def printRealHeader(self): @@ -848,26 +864,107 @@ __GLapi * __glXNewIndirectAPI( void ) return glAPI; } """ + return - def printFunction(self, f): - if f.category != self.last_category: - self.last_category = f.category - print '' - print ' /* %s */' % (self.last_category) - print '' - - print ' glAPI->%s = __indirect_gl%s;' % (f.name, f.name) + def printCategory(self, category_group, show_num): + cat_keys = category_group.keys() + cat_keys.sort() + for cat_num in cat_keys: + first = 1 + for offset in category_group[ cat_num ]: + [cat_name, func_name] = category_group[ cat_num ][ offset ] + + if first: + print '' + if show_num: + print ' /* % 3u. %s */' % (cat_num, cat_name) + else: + print ' /* %s */' % (cat_name) + print '' + first = 0 + + print ' glAPI->%s = __indirect_gl%s;' % (func_name, func_name) + + + def printBody(self, api): + core_categories = {} + arb_categories = {} + other_categories = {} + next_unnum = 1000 + + for func in api.functionIterateGlx(): + [cat, num] = api.get_category_for_name( func.name ) + + # There are three groups of "categories" that we + # care about here. We want to separate the core GL + # version categories from extensions. We also want to + # separate the ARB extensions from the non-ARB + # extensions. + # + # This is done by first trying to convert the category + # name to a floating point number. All core GL + # versions are of the form "N.M" where both N and M + # are integers. If the cast to float fails, an + # exception will be thrown. Once down that path, + # we can look at the start of the extension string. + # If it begins with "GL_ARB_", it's an ARB extension. + # + # Once the categories are separated, the are ordered + # by number. The un-numbered non-ARB extensions + # (e.g., GL_INGR_blend_func_separate) are assigned + # arbitrary numbers starting at 1000. + # + # FIXME In order to maintain repeatability, the + # FIXME unnumbered extensions should be put in their + # FIXME own dictionary and ordered by name (since they + # FIXME have no number). + + try: + num = float(cat) + if not core_categories.has_key( num ): + core_categories[ num ] = {} + + core_categories[ num ][ func.offset ] = [cat, func.name] + + except Exception, e: + if not num: + num = next_unnum + next_unnum += 1 + else: + num = int(num) + + if cat.startswith( "GL_ARB_" ): + if not arb_categories.has_key( num ): + arb_categories[ num ] = {} + + arb_categories[ num ][ func.offset ] = [cat, func.name] + else: + if not other_categories.has_key( num ): + other_categories[ num ] = {} -class PrintGlxProtoInit_h(glX_XML.GlxProto): + other_categories[ num ][ func.offset ] = [cat, func.name] + + self.printCategory( core_categories, 0 ) + self.printCategory( arb_categories, 1 ) + self.printCategory( other_categories, 1 ) + return + + +class PrintGlxProtoInit_h(gl_XML.gl_print_base): def __init__(self): - glX_XML.GlxProto.__init__(self) - self.last_category = "" + gl_XML.gl_print_base.__init__(self) + + self.name = "glX_proto_send.py (from Mesa)" self.license = license.bsd_license_template % ( \ """Copyright 1998-1999 Precision Insight, Inc., Cedar Park, Texas. (C) Copyright IBM Corporation 2004""", "PRECISION INSIGHT, IBM") self.header_tag = "_INDIRECT_H_" + self.last_category = "" + return + + def printRealHeader(self): print """/** * \\file @@ -900,8 +997,9 @@ extern HIDDEN NOINLINE FASTCALL GLubyte * __glXSetupVendorRequest( """ - def printFunction(self, f): - print 'extern HIDDEN %s __indirect_gl%s(%s);' % (f.fn_return_type, f.name, f.get_parameter_string()) + def printBody(self, api): + for func in api.functionIterateGlx(): + print 'extern HIDDEN %s __indirect_gl%s(%s);' % (func.return_type, func.name, func.get_parameter_string()) def show_usage(): @@ -930,14 +1028,16 @@ if __name__ == '__main__': debug = 1 if mode == "proto": - dh = PrintGlxProtoStubs() + printer = PrintGlxProtoStubs() elif mode == "init_c": - dh = PrintGlxProtoInit_c() + printer = PrintGlxProtoInit_c() elif mode == "init_h": - dh = PrintGlxProtoInit_h() + printer = PrintGlxProtoInit_h() else: show_usage() - dh.debug = debug - gl_XML.parse_GL_API( dh, file_name ) + printer.debug = debug + api = gl_XML.parse_GL_API( file_name, glX_XML.glx_item_factory() ) + + printer.Print( api ) |