/************************************************************************** Copyright 2004 Tungsten Graphics Inc., Cedar Park, Texas. All Rights Reserved. Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation on the rights to use, copy, modify, merge, publish, distribute, sub license, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice (including the next paragraph) shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. IN NO EVENT SHALL ATI, TUNGSTEN GRAPHICS AND/OR THEIR SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. **************************************************************************/ /* * Authors: * Keith Whitwell <keith@tungstengraphics.com> * Daniel Borca <dborca@yahoo.com> */ #if defined (__DJGPP__) || defined (__MINGW32__) || defined (__CYGWIN__) #define GLOBL( x ) \ .globl _##x; \ _##x: #else /* !defined (__DJGPP__) && !defined (__MINGW32__) && !defined (__CYGWIN__) */ #define GLOBL( x ) \ .globl x; \ x: #endif /* !defined (__DJGPP__) && !defined (__MINGW32__) && !defined (__CYGWIN__) */ #if !defined (STDCALL_API) #define RETCLEAN( x ) ret #else #define RETCLEAN( x ) ret $x #endif #define _JMP(x) \ .byte 0xe9; \ .long x #define _CALL(x) \ .byte 0xe8; \ .long x /* Someone who knew a lot about this sort of thing would use this * macro to note current offsets, etc in a special region of the * object file & just make everything work out neat. I don't know * enough to do that... */ #define SUBST( x ) (0x10101010 + x) .data /* [dBorca] TODO * Unfold functions for each vertex size? * Build super-specialized SSE versions? * * There is a trick in Vertex*fv: under certain conditions, * we tail to _tnl_wrap_filled_vertex(ctx). This means that * if Vertex*fv is STDCALL, then _tnl_wrap_filled_vertex must * be STDCALL as well, because (GLcontext *) and (GLfloat *) * have the same size. */ .align 4 GLOBL ( _tnl_x86_Vertex1fv ) movl 4(%esp), %ecx push %edi push %esi movl SUBST(0), %edi /* 0x0 --> tnl->vtx.vbptr */ movl (%ecx), %edx /* load v[0] */ movl %edx, (%edi) /* tnl->vtx.vbptr[0] = v[0] */ addl $4, %edi /* tnl->vtx.vbptr += 1 */ movl $SUBST(1), %ecx /* 0x1 --> (tnl->vtx.vertex_size - 1) */ movl $SUBST(2), %esi /* 0x2 --> (tnl->vtx.vertex + 1) */ repz movsl %ds:(%esi), %es:(%edi) movl %edi, SUBST(0) /* 0x0 --> tnl->vtx.vbptr */ movl SUBST(3), %edx /* 0x3 --> counter */ pop %esi pop %edi dec %edx /* counter-- */ movl %edx, SUBST(3) /* 0x3 --> counter */ je .0 /* if (counter == 0) goto .0 */ RETCLEAN(4) /* return */ .balign 16 .0: movl $SUBST(4), %eax /* load ctx */ movl %eax, 4(%esp) /* push ctx */ _JMP (SUBST(5)) /* jmp _tnl_wrap_filled_vertex */ GLOBL ( _tnl_x86_Vertex1fv_end ) .align 4 GLOBL ( _tnl_x86_Vertex2fv ) movl 4(%esp), %ecx push %edi push %esi movl SUBST(0), %edi /* load tnl->vtx.vbptr */ movl (%ecx), %edx /* load v[0] */ movl 4(%ecx), %eax /* load v[1] */ movl %edx, (%edi) /* tnl->vtx.vbptr[0] = v[0] */ movl %eax, 4(%edi) /* tnl->vtx.vbptr[1] = v[1] */ addl $8, %edi /* tnl->vtx.vbptr += 2 */ movl $SUBST(1), %ecx /* vertex_size - 2 */ movl $SUBST(2), %esi /* tnl->vtx.vertex + 2 */ repz movsl %ds:(%esi), %es:(%edi) movl %edi, SUBST(0) /* save tnl->vtx.vbptr */ movl SUBST(3), %edx /* load counter */ pop %esi pop %edi dec %edx /* counter-- */ movl %edx, SUBST(3) /* save counter */ je .1 /* if (counter == 0) goto .1 */ RETCLEAN(4) /* return */ .balign 16 .1: movl $SUBST(4), %eax /* load ctx */ movl %eax, 4(%esp) /* push ctx */ _JMP (SUBST(5)) /* jmp _tnl_wrap_filled_vertex */ GLOBL ( _tnl_x86_Vertex2fv_end ) .align 4 GLOBL ( _tnl_x86_Vertex3fv ) movl 4(%esp), %ecx push %edi push %esi movl SUBST(0), %edi /* load tnl->vtx.vbptr */ movl (%ecx), %edx /* load v[0] */ movl 4(%ecx), %eax /* load v[1] */ movl 8(%ecx), %esi /* load v[2] */ movl %edx, (%edi) /* tnl->vtx.vbptr[0] = v[0] */ movl %eax, 4(%edi) /* tnl->vtx.vbptr[1] = v[1] */ movl %esi, 8(%edi) /* tnl->vtx.vbptr[2] = v[2] */ addl $12, %edi /* tnl->vtx.vbptr += 3 */ movl $SUBST(1), %ecx /* vertex_size - 3 */ movl $SUBST(2), %esi /* tnl->vtx.vertex + 3 */ repz movsl %ds:(%esi), %es:(%edi) movl %edi, SUBST(0) /* save tnl->vtx.vbptr */ movl SUBST(3), %edx /* load counter */ pop %esi pop %edi dec %edx /* counter-- */ movl %edx, SUBST(3) /* save counter */ je .2 /* if (counter == 0) goto .2 */ RETCLEAN(4) /* return */ .balign 16 .2: movl $SUBST(4), %eax /* load ctx */ movl %eax, 4(%esp) /* push ctx */ _JMP (SUBST(5)) /* jmp _tnl_wrap_filled_vertex */ GLOBL ( _tnl_x86_Vertex3fv_end ) .align 4 GLOBL ( _tnl_x86_Vertex4fv ) movl 4(%esp), %ecx push %edi push %esi movl SUBST(0), %edi /* load tnl->vtx.vbptr */ movl (%ecx), %edx /* load v[0] */ movl 4(%ecx), %eax /* load v[1] */ movl 8(%ecx), %esi /* load v[2] */ movl 12(%ecx), %ecx /* load v[3] */ movl %edx, (%edi) /* tnl->vtx.vbptr[0] = v[0] */ movl %eax, 4(%edi) /* tnl->vtx.vbptr[1] = v[1] */ movl %esi, 8(%edi) /* tnl->vtx.vbptr[2] = v[2] */ movl %ecx, 12(%edi) /* tnl->vtx.vbptr[3] = v[3] */ addl $16, %edi /* tnl->vtx.vbptr += 4 */ movl $SUBST(1), %ecx /* vertex_size - 4 */ movl $SUBST(2), %esi /* tnl->vtx.vertex + 4 */ repz movsl %ds:(%esi), %es:(%edi) movl %edi, SUBST(0) /* save tnl->vtx.vbptr */ movl SUBST(3), %edx /* load counter */ pop %esi pop %edi dec %edx /* counter-- */ movl %edx, SUBST(3) /* save counter */ je .3 /* if (counter == 0) goto .3 */ RETCLEAN(4) /* return */ .balign 16 .3: movl $SUBST(4), %eax /* load ctx */ movl %eax, 4(%esp) /* push ctx */ _JMP (SUBST(5)) /* jmp _tnl_wrap_filled_vertex */ GLOBL ( _tnl_x86_Vertex4fv_end ) /** * Generic handlers for vector format data. */ GLOBL( _tnl_x86_Attribute1fv ) movl 4(%esp), %ecx movl (%ecx), %eax /* load v[0] */ movl %eax, SUBST(0) /* store v[0] to current vertex */ RETCLEAN(4) GLOBL ( _tnl_x86_Attribute1fv_end ) GLOBL( _tnl_x86_Attribute2fv ) movl 4(%esp), %ecx movl (%ecx), %eax /* load v[0] */ movl 4(%ecx), %edx /* load v[1] */ movl %eax, SUBST(0) /* store v[0] to current vertex */ movl %edx, SUBST(1) /* store v[1] to current vertex */ RETCLEAN(4) GLOBL ( _tnl_x86_Attribute2fv_end ) GLOBL( _tnl_x86_Attribute3fv ) movl 4(%esp), %ecx movl (%ecx), %eax /* load v[0] */ movl 4(%ecx), %edx /* load v[1] */ movl 8(%ecx), %ecx /* load v[2] */ movl %eax, SUBST(0) /* store v[0] to current vertex */ movl %edx, SUBST(1) /* store v[1] to current vertex */ movl %ecx, SUBST(2) /* store v[2] to current vertex */ RETCLEAN(4) GLOBL ( _tnl_x86_Attribute3fv_end ) GLOBL( _tnl_x86_Attribute4fv ) movl 4(%esp), %ecx movl (%ecx), %eax /* load v[0] */ movl 4(%ecx), %edx /* load v[1] */ movl %eax, SUBST(0) /* store v[0] to current vertex */ movl %edx, SUBST(1) /* store v[1] to current vertex */ movl 8(%ecx), %eax /* load v[2] */ movl 12(%ecx), %edx /* load v[3] */ movl %eax, SUBST(2) /* store v[2] to current vertex */ movl %edx, SUBST(3) /* store v[3] to current vertex */ RETCLEAN(4) GLOBL ( _tnl_x86_Attribute4fv_end ) /* Choosers: * * Must generate all of these ahead of first usage. Generate at * compile-time? */ GLOBL( _tnl_x86_choose_fv ) subl $12, %esp /* gcc does 16 byte alignment of stack frames? */ movl $SUBST(0), (%esp) /* arg 0 - attrib */ movl $SUBST(1), 4(%esp) /* arg 1 - N */ _CALL (SUBST(2)) /* call do_choose */ add $12, %esp /* tear down stack frame */ jmp *%eax /* jump to new func */ GLOBL ( _tnl_x86_choose_fv_end ) /* FIRST LEVEL FUNCTIONS -- these are plugged directly into GL dispatch. * * In the 1st level dispatch functions, switch to a different * calling convention -- (const GLfloat *v) in %ecx. * * As with regular (x86) dispatch, don't create a new stack frame - * just let the 'ret' in the dispatched function return straight * back to the original caller. * * Vertex/Normal/Color, etc: the address of the function pointer * is known at codegen time. */ /* Unfortunately, have to play with the stack in the non-fv case: */ #if !defined (STDCALL_API) GLOBL( _tnl_x86_dispatch_attrf1 ) GLOBL( _tnl_x86_dispatch_attrf2 ) GLOBL( _tnl_x86_dispatch_attrf3 ) GLOBL( _tnl_x86_dispatch_attrf4 ) subl $12, %esp /* gcc does 16 byte alignment of stack frames? */ leal 16(%esp), %edx /* address of first float on stack */ movl %edx, (%esp) /* save as 'v' */ call *SUBST(0) /* 0x0 --> tabfv[attr][n] */ addl $12, %esp /* tear down frame */ ret /* return */ GLOBL( _tnl_x86_dispatch_attrf4_end ) GLOBL( _tnl_x86_dispatch_attrf3_end ) GLOBL( _tnl_x86_dispatch_attrf2_end ) GLOBL( _tnl_x86_dispatch_attrf1_end ) #else /* defined(STDCALL_API) */ GLOBL( _tnl_x86_dispatch_attrf1 ) subl $12, %esp /* gcc does 16 byte alignment of stack frames? */ leal 16(%esp), %edx /* address of first float on stack */ movl %edx, (%esp) /* save as 'v' */ call *SUBST(0) /* 0x0 --> tabfv[attr][n] */ addl $8, %esp /* tear down frame (4 shaved off by the callee) */ ret $4 /* return */ GLOBL( _tnl_x86_dispatch_attrf1_end ) GLOBL( _tnl_x86_dispatch_attrf2 ) subl $12, %esp /* gcc does 16 byte alignment of stack frames? */ leal 16(%esp), %edx /* address of first float on stack */ movl %edx, (%esp) /* save as 'v' */ call *SUBST(0) /* 0x0 --> tabfv[attr][n] */ addl $8, %esp /* tear down frame (4 shaved off by the callee) */ ret $8 /* return */ GLOBL( _tnl_x86_dispatch_attrf2_end ) GLOBL( _tnl_x86_dispatch_attrf3 ) subl $12, %esp /* gcc does 16 byte alignment of stack frames? */ leal 16(%esp), %edx /* address of first float on stack */ movl %edx, (%esp) /* save as 'v' */ call *SUBST(0) /* 0x0 --> tabfv[attr][n] */ addl $8, %esp /* tear down frame (4 shaved off by the callee) */ ret $12 /* return */ GLOBL( _tnl_x86_dispatch_attrf3_end ) GLOBL( _tnl_x86_dispatch_attrf4 ) subl $12, %esp /* gcc does 16 byte alignment of stack frames? */ leal 16(%esp), %edx /* address of first float on stack */ movl %edx, (%esp) /* save as 'v' */ call *SUBST(0) /* 0x0 --> tabfv[attr][n] */ addl $8, %esp /* tear down frame (4 shaved off by the callee) */ ret $16 /* return */ GLOBL( _tnl_x86_dispatch_attrf4_end ) #endif /* defined(STDCALL_API) */ /* The fv case is simpler: */ GLOBL( _tnl_x86_dispatch_attrfv ) jmp *SUBST(0) /* 0x0 --> tabfv[attr][n] */ GLOBL( _tnl_x86_dispatch_attrfv_end ) /* MultiTexcoord: the address of the function pointer must be * calculated, but can use the index argument slot to hold 'v', and * avoid setting up a new stack frame. * * [dBorca] * right, this would be the preferred approach, but gcc does not * clean up the stack after each function call when optimizing (-fdefer-pop); * can it make assumptions about what's already on the stack? I dunno, * but in this case, we can't mess with the caller's stack frame, and * we must use a model like `_x86_dispatch_attrfv' above. Caveat emptor! */ /* Also, will only need a maximum of four of each of these per context: */ #if !defined (STDCALL_API) GLOBL( _tnl_x86_dispatch_multitexcoordf1 ) GLOBL( _tnl_x86_dispatch_multitexcoordf2 ) GLOBL( _tnl_x86_dispatch_multitexcoordf3 ) GLOBL( _tnl_x86_dispatch_multitexcoordf4 ) movl 4(%esp), %ecx leal 8(%esp), %edx andl $7, %ecx movl %edx, 4(%esp) sall $4, %ecx jmp *SUBST(0)(%ecx) /* 0x0 - tabfv[tex0][n] */ GLOBL( _tnl_x86_dispatch_multitexcoordf4_end ) GLOBL( _tnl_x86_dispatch_multitexcoordf3_end ) GLOBL( _tnl_x86_dispatch_multitexcoordf2_end ) GLOBL( _tnl_x86_dispatch_multitexcoordf1_end ) GLOBL( _tnl_x86_dispatch_multitexcoordfv ) movl 4(%esp), %ecx movl 8(%esp), %edx andl $7, %ecx movl %edx, 4(%esp) sall $4, %ecx jmp *SUBST(0)(%ecx) /* 0x0 - tabfv[tex0][n] */ GLOBL( _tnl_x86_dispatch_multitexcoordfv_end ) #else /* defined (STDCALL_API) */ GLOBL( _tnl_x86_dispatch_multitexcoordf1 ) subl $12, %esp /* gcc does 16 byte alignment of stack frames? */ movl 16(%esp), %ecx leal 20(%esp), %edx andl $7, %ecx movl %edx, (%esp) sall $4, %ecx call *SUBST(0)(%ecx) /* 0x0 - tabfv[tex0][n] */ addl $8, %esp /* tear down frame (4 shaved off by the callee) */ ret $8 /* return */ GLOBL( _tnl_x86_dispatch_multitexcoordf1_end ) GLOBL( _tnl_x86_dispatch_multitexcoordf2 ) subl $12, %esp /* gcc does 16 byte alignment of stack frames? */ movl 16(%esp), %ecx leal 20(%esp), %edx andl $7, %ecx movl %edx, (%esp) sall $4, %ecx call *SUBST(0)(%ecx) /* 0x0 - tabfv[tex0][n] */ addl $8, %esp /* tear down frame (4 shaved off by the callee) */ ret $12 /* return */ GLOBL( _tnl_x86_dispatch_multitexcoordf2_end ) GLOBL( _tnl_x86_dispatch_multitexcoordf3 ) subl $12, %esp /* gcc does 16 byte alignment of stack frames? */ movl 16(%esp), %ecx leal 20(%esp), %edx andl $7, %ecx movl %edx, (%esp) sall $4, %ecx call *SUBST(0)(%ecx) /* 0x0 - tabfv[tex0][n] */ addl $8, %esp /* tear down frame (4 shaved off by the callee) */ ret $16 /* return */ GLOBL( _tnl_x86_dispatch_multitexcoordf3_end ) GLOBL( _tnl_x86_dispatch_multitexcoordf4 ) subl $12, %esp /* gcc does 16 byte alignment of stack frames? */ movl 16(%esp), %ecx leal 20(%esp), %edx andl $7, %ecx movl %edx, (%esp) sall $4, %ecx call *SUBST(0)(%ecx) /* 0x0 - tabfv[tex0][n] */ addl $8, %esp /* tear down frame (4 shaved off by the callee) */ ret $20 /* return */ GLOBL( _tnl_x86_dispatch_multitexcoordf4_end ) GLOBL( _tnl_x86_dispatch_multitexcoordfv ) subl $12, %esp /* gcc does 16 byte alignment of stack frames? */ movl 16(%esp), %ecx movl 20(%esp), %edx andl $7, %ecx movl %edx, (%esp) sall $4, %ecx call *SUBST(0)(%ecx) /* 0x0 - tabfv[tex0][n] */ addl $8, %esp /* tear down frame (4 shaved off by the callee) */ ret $8 /* return */ GLOBL( _tnl_x86_dispatch_multitexcoordfv_end ) #endif /* defined (STDCALL_API) */ /* VertexAttrib: the address of the function pointer must be * calculated. */ #if !defined (STDCALL_API) GLOBL( _tnl_x86_dispatch_vertexattribf1 ) GLOBL( _tnl_x86_dispatch_vertexattribf2 ) GLOBL( _tnl_x86_dispatch_vertexattribf3 ) GLOBL( _tnl_x86_dispatch_vertexattribf4 ) movl 4(%esp), %eax cmpl $16, %eax jb .8 /* "cmovge" is not supported on all CPUs */ movl $16, %eax .8: leal 8(%esp), %ecx /* calculate 'v' */ movl %ecx, 4(%esp) /* save in 1st arg slot */ sall $4, %eax jmp *SUBST(0)(%eax) /* 0x0 - tabfv[0][n] */ GLOBL( _tnl_x86_dispatch_vertexattribf4_end ) GLOBL( _tnl_x86_dispatch_vertexattribf3_end ) GLOBL( _tnl_x86_dispatch_vertexattribf2_end ) GLOBL( _tnl_x86_dispatch_vertexattribf1_end ) GLOBL( _tnl_x86_dispatch_vertexattribfv ) movl 4(%esp), %eax cmpl $16, %eax jb .9 /* "cmovge" is not supported on all CPUs */ movl $16, %eax .9: movl 8(%esp), %ecx /* load 'v' */ movl %ecx, 4(%esp) /* save in 1st arg slot */ sall $4, %eax jmp *SUBST(0)(%eax) /* 0x0 - tabfv[0][n] */ GLOBL( _tnl_x86_dispatch_vertexattribfv_end ) #else /* defined (STDCALL_API) */ GLOBL( _tnl_x86_dispatch_vertexattribf1 ) subl $12, %esp /* gcc does 16 byte alignment of stack frames? */ movl 16(%esp), %eax cmpl $16, %eax jb .81 /* "cmovge" is not supported on all CPUs */ movl $16, %eax .81: leal 20(%esp), %ecx /* load 'v' */ movl %ecx, (%esp) /* save in 1st arg slot */ sall $4, %eax call *SUBST(0)(%eax) /* 0x0 - tabfv[0][n] */ addl $8, %esp /* tear down frame (4 shaved off by the callee) */ ret $8 /* return */ GLOBL( _tnl_x86_dispatch_vertexattribf1_end ) GLOBL( _tnl_x86_dispatch_vertexattribf2 ) subl $12, %esp /* gcc does 16 byte alignment of stack frames? */ movl 16(%esp), %eax cmpl $16, %eax jb .82 /* "cmovge" is not supported on all CPUs */ movl $16, %eax .82: leal 20(%esp), %ecx /* load 'v' */ movl %ecx, (%esp) /* save in 1st arg slot */ sall $4, %eax call *SUBST(0)(%eax) /* 0x0 - tabfv[0][n] */ addl $8, %esp /* tear down frame (4 shaved off by the callee) */ ret $12 /* return */ GLOBL( _tnl_x86_dispatch_vertexattribf2_end ) GLOBL( _tnl_x86_dispatch_vertexattribf3 ) subl $12, %esp /* gcc does 16 byte alignment of stack frames? */ movl 16(%esp), %eax cmpl $16, %eax jb .83 /* "cmovge" is not supported on all CPUs */ movl $16, %eax .83: leal 20(%esp), %ecx /* load 'v' */ movl %ecx, (%esp) /* save in 1st arg slot */ sall $4, %eax call *SUBST(0)(%eax) /* 0x0 - tabfv[0][n] */ addl $8, %esp /* tear down frame (4 shaved off by the callee) */ ret $16 /* return */ GLOBL( _tnl_x86_dispatch_vertexattribf3_end ) GLOBL( _tnl_x86_dispatch_vertexattribf4 ) subl $12, %esp /* gcc does 16 byte alignment of stack frames? */ movl 16(%esp), %eax cmpl $16, %eax jb .84 /* "cmovge" is not supported on all CPUs */ movl $16, %eax .84: leal 20(%esp), %ecx /* load 'v' */ movl %ecx, (%esp) /* save in 1st arg slot */ sall $4, %eax call *SUBST(0)(%eax) /* 0x0 - tabfv[0][n] */ addl $8, %esp /* tear down frame (4 shaved off by the callee) */ ret $20 /* return */ GLOBL( _tnl_x86_dispatch_vertexattribf4_end ) GLOBL( _tnl_x86_dispatch_vertexattribfv ) subl $12, %esp /* gcc does 16 byte alignment of stack frames? */ movl 16(%esp), %eax cmpl $16, %eax jb .9 /* "cmovge" is not supported on all CPUs */ movl $16, %eax .9: movl 20(%esp), %ecx /* load 'v' */ movl %ecx, (%esp) /* save in 1st arg slot */ sall $4, %eax call *SUBST(0)(%eax) /* 0x0 - tabfv[0][n] */ addl $8, %esp /* tear down frame (4 shaved off by the callee) */ ret $8 /* return */ GLOBL( _tnl_x86_dispatch_vertexattribfv_end ) #endif /* defined (STDCALL_API) */